TRR
{

RETE|ID 1 FBtr0000018	SYM 1 Ecol\lacZ<up>per.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1786
ID|FBtr0000018
SYM|Ecol\lacZ<up>per.P</up>RA
SYN|lacZ<up>per.P</up>RA
ASAL|<fbsym>FBal0041828==Ecol\lacZ<up>per.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000019
ASTP|<fbsym>FBtp0004424==P{lacZ<up>per.P</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056576
|Ewer et al.
|1992
RNAT|mRNA
BODP|A detailed examination of the distribution of <fbsym>FBal0041828==Ecol\lacZ[per.P]</fbsym> expressing
| cells within the adult brain was made. Expression was detected in the
| ocelli, the photoreceptor cells, and throughout the central brain and the
| optic ganglia. The detailed locations of expressing cells were described.
| The <fbsym>FBgn0014447==Ecol\lacZ</fbsym> distribution pattern matches the pattern of <fbsym>FBgn0003068==per</fbsym> protein
| expression qualitatively but the relative expression levels in different
| cells does not always correspond. Double staining with an antibody to
| <fbsym>FBgn0000570==elav</fbsym> which recognizes only neurons was used to determine the nature of
| the <fbsym>FBal0041828==Ecol\lacZ[per.P]</fbsym> staining cells. The cells in the ocelli and eyes,
| the lateral cells, and the dorsalmost cortex cells were shown to be
| neurons. The staining cells located at the margins of the cortex and
| neuropil in the optic lobes and the central brain, the cells within the
| lamina and central brain neuropil, and the cells in the inner chiasm are
| not neurons and are thought to be glia.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> A <a> ocellus <p>
|<t> A <a> photoreceptor cell <p>
|<t> A <a> lamina neuropil <p>
|<t> A <a> neuropil <p>
|<t> A <a> supraoesophageal ganglion <p>
|<t> A <a> optic lobe  <p>
|<t> A <a> optic chiasma  <p>
}

REF
{
REFM|FBrf0056576
|Ewer et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000021	SYM 1 slo<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 424
ID|FBtr0000021
SYM|slo<up>+</up>RA
ASAL|<fbsym>FBal0071066==slo<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000022
ASGN|<fbsym>FBgn0003429==slo</fbsym>
ASPP|<fbsym>FBpp0001269==slo<up>+</up>P1175</fbsym>

REFDSR
{
RDID|FBrf0057357
|Adelman et al.
|1992
RNAT|mRNA
CC|A complete cDNA was constructed and checked by sequencing (see
| <fbsym>slo[A1C2E2G5I0]</fbsym>).
}

REF
{
REFM|FBrf0057357
|Adelman et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000022	SYM 1 slo<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 424
ID|FBtr0000022
SYM|slo<up>+</up>RB
ASAL|<fbsym>FBal0071066==slo<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000023
ASGN|<fbsym>FBgn0003429==slo</fbsym>
ASPP|<fbsym>FBpp0001569==slo<up>+</up>P1166</fbsym>

REFDSR
{
RDID|FBrf0057357
|Adelman et al.
|1992
RNAT|mRNA
CC|A complete cDNA was constructed and checked by sequencing (see
| <fbsym>slo[A1C2E1G3I0]</fbsym>).
}

REF
{
REFM|FBrf0057357
|Adelman et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000039	SYM 1 Dl<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 6 Jan 2000	RESZ 4068
ID|FBtr0000039
SYM|Dl<up>+</up>R
ASAL|<fbsym>FBal0066914==Dl<up>+</up></fbsym>
DT|6 Jan 2000
|10 Mar 1998
ID2|FBtr0000040
ASGN|<fbsym>FBgn0000463==Dl</fbsym>

REFDSR
{
RDID|FBrf0051592
|Haenlin et al.
|1990
RNAT|mRNA
BODP|<fbsym>FBgn0000463==Dl</fbsym> transcripts are diffusely distributed throughout the embryo in stage 4.
| During stages 5 and 6, a gap-gene like pattern of expression is seen in
| four lateral zones that are ventrally connected by a continuous
| longitudinal band. In stage 7, a pair-rule-like pattern is observed. In
| stage 8, <fbsym>FBgn0000463==Dl</fbsym> transcripts are distributed diffusely in the neurogenic
| region on the trunk and head. In stage 9, all neurectodermal cells contain
| <fbsym>FBgn0000463==Dl</fbsym> transcripts. Expression in cell clusters within the neurectoderm is
| seen as long as neuroblast segregation is going on (until mid stage 11). At
| the same time a metameric pattern of expression is seen in the ectoderm
| with 14 stripes of expression. <fbsym>FBgn0000463==Dl</fbsym> transcripts are also present at high
| levels in neuroblasts in stages 11 and 12. From stage 10, transcripts are
| present in midline precursor cells. From stage 11, they are detected in
| developing sensory organs. From early stage 12, labelling is seen in the
| anlage of the stomatogastric nervous system and the optic lobe anlage.
| Strong expression is observed in the posterior midgut in stages 11 and 12
| and in the hindgut from the blastoderm until the organ differentiates.
| Labelling is seen in the tracheal tree from stage 13 onwards.
ASM|northern blot
CVBODP|in situ
|<t> E | stage 5,6 <a>  <p> 65-85% egg length
|<t> E | stage 5,6 <a>  <p> 40-65% egg length
|<t> E | stage 5,6 <a>  <p> 20-35% egg length
|<t> E | stage 5,6 <a>  <p> 5-15% egg length
|<t> E | stage 7 <a>  <p> pair rule
|<t> E | stage 8-11 <a> neurectoderm <p>
|<t> E | stage 9-11 <a> ectoderm <p>
|<t> E | stage 11,12 <a> neuroblast <p>
|<t> E | stage >=10 <a> ventral midline | precursor <p>
|<t> E | stage >=11 <a> embryonic peripheral nervous system <p>
|<t> E | stage >=12 <a> embryonic stomatogastric nervous system <p>
|<t> E | stage >=12 <a> procephalic neurogenic region <p>
|<t> E | stage 11,12 <a> posterior embryonic/larval midgut <p>
|<t> E | stage 4-13 <a> hindgut primordium <p>
|<t> E | stage >=13 <a> embryonic/larval tracheal system <p>
}

REFDSR
{
RDID|FBrf0056444
|Kopczynski and Muskavitch
|1992
RNAT|snRNA
CC|The minor <fbsym>FBgn0000463==Dl</fbsym> RNAs were shown to be composed of intronic sequences. Introns
| excised from <fbsym>FBgn0000463==Dl</fbsym> primary transcripts accumulate to unusually high levels
| in embryos and were shown by high resolution in situ hybridizations to
| localize to 2 foci per embryonic nucleus.
}

REFDSR
{
RDID|FBrf0080309
|Parks et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0000463==Dl</fbsym> intron probes were used to assay <fbsym>FBgn0000463==Dl</fbsym> transcription in the eye.
| Transcripts are observed in nearly all cells in the morphogenetic furrow. A
| pattern begins to emerge posterior to the furrow as clusters are just
| beginning to rotate. Transcription is first seen in R3 and R4 and is
| stronger in R3 in early clusters. In subsequent rows, transcription in R1
| and R6 is observed. By row 7 or 8, transcription is stronger in R4 than R3,
| continues in R1 and R6 and is first seen in R7. By row 8 or 9, <fbsym>FBgn0000463==Dl</fbsym>
| transcription is found only in R4 and R7 and by row 14, <fbsym>FBgn0000463==Dl</fbsym> transcription
| has ceased in photoreceptors.
ASM|in situ
CVBODP|in situ
|<t> L | third instar <a> photoreceptor cell R3 <p>
|<t> L | third instar <a> photoreceptor cell R4 <p>
|<t> L | third instar <a> photoreceptor cell R1 <p>
|<t> L | third instar <a> photoreceptor cell R6 <p>
|<t> L | third instar <a> photoreceptor cellR7 <p>
|<t> L | third instar <a> morphogenetic furrow <p>
|<t> L | third instar <a> eye disc <p>
}

REF
{
REFM|FBrf0051592
|Haenlin et al.
|1990
REFM|FBrf0056444
|Kopczynski and Muskavitch
|1992
REFM|FBrf0080309
|Parks et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000062	SYM 1 Ecol\lacZ<up>Ubx.pbxPSc</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 488
ID|FBtr0000062
SYM|Ecol\lacZ<up>Ubx.pbxPSc</up>RA
SYN|lacZ<up>Ubx.pbxPSc</up>RA
ASAL|<fbsym>FBal0042201==Ecol\lacZ<up>Ubx.pbxPSc</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000063
ASTP|<fbsym>FBtp0004630==P{lacZ<up>Ubx.pbxPSc</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
BODP|No expression detected
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000065	SYM 1 Ecol\lacZ<up>Ubx.pbxPSd</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 608
ID|FBtr0000065
SYM|Ecol\lacZ<up>Ubx.pbxPSd</up>RA
SYN|lacZ<up>Ubx.pbxPSd</up>RA
ASAL|<fbsym>FBal0042202==Ecol\lacZ<up>Ubx.pbxPSd</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000066
ASTP|<fbsym>FBtp0004631==P{lacZ<up>Ubx.pbxPSd</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
BODP|A <fbsym>FBgn0001077==ftz</fbsym>-like stripe pattern was observed in parasegments 6 and 8.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E <a> parasegment 6,8 <of> ectoderm <p>
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000066	SYM 1 Ecol\lacZ<up>Ubx.pbxPS</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 731
ID|FBtr0000066
SYM|Ecol\lacZ<up>Ubx.pbxPS</up>RA
SYN|lacZ<up>Ubx.pbxPS</up>RA
ASAL|<fbsym>FBal0042200==Ecol\lacZ<up>Ubx.pbxPS</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000067
ASTP|<fbsym>FBtp0004629==P{lacZ<up>Ubx.pbxPS</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
BODP|The reporter construct is expressed in a broad band in the posterior half of
| the blastoderm embryo from 15-45% egg length and weakly in ectodermal
| stripes in even numbered parasegments 6 and 8 after gastrulation.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | blastoderm <a>  <p> 15-45% egg length
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000068	SYM 1 Ecol\lacZ<up>Ubx.pbxPP</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 597
ID|FBtr0000068
SYM|Ecol\lacZ<up>Ubx.pbxPP</up>RA
SYN|lacZ<up>Ubx.pbxPP</up>RA
ASAL|<fbsym>FBal0042197==Ecol\lacZ<up>Ubx.pbxPP</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000069
ASTP|<fbsym>FBtp0004626==P{lacZ<up>Ubx.pbxPP</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
BODP|The reporter construct is expressed weakly in "ftz-like" ectodermal stripes
| in even numbered parasegments 6 and 8 after gastrulation.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000069	SYM 1 Ecol\lacZ<up>Ubx.pbxPPb</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 663
ID|FBtr0000069
SYM|Ecol\lacZ<up>Ubx.pbxPPb</up>RA
SYN|lacZ<up>Ubx.pbxPPb</up>RA
ASAL|<fbsym>FBal0042199==Ecol\lacZ<up>Ubx.pbxPPb</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000070
ASTP|<fbsym>FBtp0004628==P{lacZ<up>Ubx.pbxPPb</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
BODP|The reporter construct is expressed weakly in "ftz-like" ectodermal stripes
| in even numbered parasegments 6 and 8 after gastrulation.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | gastrula <a> parasegment 6,8 <of> ectoderm <p>
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000070	SYM 1 Ecol\lacZ<up>Ubx.pbxPPa</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 826
ID|FBtr0000070
SYM|Ecol\lacZ<up>Ubx.pbxPPa</up>RA
SYN|lacZ<up>Ubx.pbxPPa</up>RA
ASAL|<fbsym>FBal0042198==Ecol\lacZ<up>Ubx.pbxPPa</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000071
ASTP|<fbsym>FBtp0004627==P{lacZ<up>Ubx.pbxPPa</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
BODP|Faint staining is observed in narrow stripes in the dorsal epidermis of even
| parasegments 6-12. The pattern does not resemble the "ftz-like" stripe
| pattern of related Ubx.pbx constructs but rather a basal pattern observed
| in truncated <fbsym>FBgn0003944==Ubx</fbsym> promoter constructs.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E <a> parasegment 6,8,10,12 <of> epidermis | dorsal <p>
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000071	SYM 1 Antp<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 5	DT 1 22 Aug 2000	RESZ 4649
ID|FBtr0000071
SYM|Antp<up>+</up>RA
SYN|P1
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|10 Mar 1998
ID2|FBtr0000072
ASGN|<fbsym>FBgn0000095==Antp</fbsym>

REFDSR
{
RDID|FBrf0039287
|Garber et al.
|1983
RNAT|mRNA
CC|A 2.2kb cDNA was isolated from an early embryonic cDNA library. The cDNA
| hybridizes to four regions within a 100kb span of genomic DNA.
}

REFDSR
{
RDID|FBrf0039288
|Levine et al.
|1983
RNAT|mRNA
BODP|<fbsym>FBgn0000095==Antp</fbsym> transcripts are first detected in two dorso-lateral clusters of cells
| in the cellular blastoderm embryo that give rise to thoracic hypodermal
| derivatives: cuticle, glands, trachea, and imaginal discs. In germ band
| extended embryos, transcripts are predominantly observed in the thoracic
| sections of the CNS and in the overlying ectoderm. As the germ band
| retracts, expression fades in the ectoderm but persists in the CNS.
| Expression is strongest in the meso- and metathoracic segments but persists
| in the abdominal segments as well. With further developmental time,
| expression decreases in the metathoracic and abdominal segments but remains
| in the mesothoracic segment. Staining is more intense in the anterior part
| of the segment than in the posterior half. Expression persists in the
| ventral ganglion in larvae in the region corresponding to the mesothoracic
| segment. Signal is also seen in cells other than CNS cells. Some may
| correspond to hypodermally derived gland cells which will secrete the
| larval spiracle. In third instar larvae, expression is observed in specific
| regions of the prothoracic, mesothoracic and metathoracic discs.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E <a> ectoderm <p>
|<t> E <a> embryonic central nervous system | restricted <p>
|<t> E <a> embryonic mesothoracic segment <p>
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> dorsal metathoracic disc | restricted <p>
|<t> L | third instar <a> dorsal prothoracic disc | restricted <p>
}

REFDSR
{
RDID|FBrf0051576
|Bermingham et al.
|1990
RNAT|mRNA
BODP|<fbsym>FBgn0000095==Antp</fbsym> P1-containing transcripts are first detected early in nuclear cycle
| 14 in a ring surrounding the embryo extending from 40-55% egg length at the
| ventral surface. The ring is narrower at the dorsal surface. At
| gastrulation, expression extends to 17% egg length (PS12). In stage 8,
| expression is mainly observed in the ectoderm from posterior PS4 to
| anterior PS6 and more weakly from PS6 through PS12. In stages 11 and 12,
| P1-containing transcripts are found at high levels in epidermal cells from
| PS4, PS5, and anterior PS6 and in the mesoderm of PS5 and anterior PS6.
| They are detected in the developing ventral nerve cord at stage 11 in PS4
| and PS5. During stage 12, they decrease in the epidermis and increase in
| the CNS. After germ band retraction, expression is absent from the
| epidermis except for a few cells in the region of the primordium of the
| anterior spiracle. In the nervous system, P1-expressing transcripts are
| expressed at high levels in PS4, at lower levels in PS5, and at very low
| levels in PS6-PS12. In addition expression is observed in some specific
| muscle sets, in the visceral mesoderm, and in cells in or near the aorta.
ASM|in situ
CVBODP|in situ
|<t> E | early <a>  <p> 40-55% egg length
|<t> E | mid <a> parasegment 4..12 <p>
|<t> E | stage >=11 <a> ventral nerve cord <p>
|<t> E | stage 13 <a> embryonic/larval anterior spiracle | vicinity of <p>
|<t> E | late <a> embryonic central nervous system <p>
|<t> E | stage 17 <a> embryonic/larval aorta | vicinity of <p>
|<t> E | late <a> visceral mesoderm <of> anterior embryonic/larval midgut <p>
|<t> E | late <a> embryonic/larval muscle system <p>
}

REFDSR
{
RDID|FBrf0055836
|Roder et al.
|1992
RNAT|mRNA
AGT|<fbsym>FBal0032945==tsh<up>8</up></fbsym>
BODP|The spatial pattern of <fbsym>FBgn0000095==Antp</fbsym> transcripts appears as wild type in <fbsym>FBgn0003866==tsh</fbsym> mutants.
ASM|in situ
}

REFDSR
{
RDID|FBrf0056111
|Oh et al.
|1992
RNAT|mRNA
CC|P1-initiated transcripts contain a 1512-nucleotide 5' non coding region
| derived from sequences in non-protein coding exons A, B, D, and E. The
| first 55 nucleotides of exon D of the <fbsym>FBgn0000095==Antp</fbsym> gene were shown to mediate
| initiation of translation by providing an internal ribosome entry site
| (IRES) in cultured SL2 cells.
}

REF
{
REFM|FBrf0039287
|Garber et al.
|1983
REFM|FBrf0039288
|Levine et al.
|1983
REFM|FBrf0051576
|Bermingham et al.
|1990
REFM|FBrf0055836
|Roder et al.
|1992
REFM|FBrf0056111
|Oh et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000072	SYM 1 Antp<up>+</up>RB	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 4	DT 1 22 Aug 2000	RESZ 3563
ID|FBtr0000072
SYM|Antp<up>+</up>RB
SYN|P2
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|10 Mar 1998
ID2|FBtr0000073
ASGN|<fbsym>FBgn0000095==Antp</fbsym>

REFDSR
{
RDID|FBrf0039287
|Garber et al.
|1983
RNAT|mRNA
CC|A 2.9kb cDNA was isolated from a pupal cDNA library. The cDNA hybridizes to
| three regions within a 37kb span of genomic DNA. The first region falls
| within an intron of the larger <fbsym>FBgn0000095==Antp</fbsym> transcription unit and the second two
| regions are in common between the two transcription units.
}

REFDSR
{
RDID|FBrf0051576
|Bermingham et al.
|1990
RNAT|mRNA
BODP|<fbsym>FBgn0000095==Antp</fbsym> P2-containing transcripts are first detected in blastoderm stage
| embryos. They accumulate in a ring 3-4 cells wide centered around 56% egg
| length (at PS4). Two other bands of expression are observed in the
| primordia for PS6 (at the ventral surface) and at PS14 (encircling the
| embryo). At gastrulation, the PS4 expression remains strong, PS6 expression
| is only detected in cells that invaginate as part of the furrow and
| expressing cells in PS14 move dorsally with the pole cells. At stage 8,
| P2-containing transcripts are strongly expressed in the ectoderm of PS3 and
| PS4 and in the mesoderm of PS4 and PS6. They are expressed more weakly in
| the ectoderm and mesoderm of PS5 and in the ectoderm from PS6 to PS14, with
| stronger signals in even-numbered parasegments. At stage 11 in the
| epidermis, expression is limited to a subset of cells in PS3, PS4 and PS5
| ventrally and small clusters of cells in the center of PS 4-14 laterally.
| In the CNS, expression is in a subset of neural cells in each PS from PS3
| to the anus. During stage 12, expression decreases in the epidermis and
| increases in the nervous system. After stage 12, expression decreases to
| low levels in the epidermis but is present in cells below the epidermis
| that are probably sensory organ precursors. In the mature nervous system,
| expression is in a subset of neurons from PS3 to PS14. P2-expressing
| transcripts are also observed in the visceral mesoderm surrounding the
| anterior midgut, in most or all somatic muscles, and in the area of the
| aorta at stage 17.
ASM|in situ
CVBODP|in situ
|<t> E | blastoderm <a>  <p> 56% egg length
|<t> E | blastoderm <a> parasegment 6 | primordium <p>
|<t> E | blastoderm <a> parasegment 14 | primordium <p>
|<t> E | stage 8 <a> ectoderm <of> parasegment 3..14 <p>
|<t> E | stage 8 <a> mesoderm <of> parasegment 4..6 <p>
|<t> E | stage >=11 <a> embryonic central nervous system <p>
|<t> E | late <a> visceral mesoderm <of> anterior embryonic/larval midgut <p>
|<t> E | stage 17 <a> embryonic/larval aorta | vicinity of <p>
|<t> E | late <a> embryonic/larval somatic muscle <p>
}

REFDSR
{
RDID|FBrf0055836
|Roder et al.
|1992
RNAT|mRNA
AGT|<fbsym>FBal0032945==tsh<up>8</up></fbsym>
BODP|The spatial pattern of <fbsym>FBgn0000095==Antp</fbsym> transcripts appears as wild type in <fbsym>FBgn0003866==tsh</fbsym> mutants.
ASM|in situ
}

REFDSR
{
RDID|FBrf0056111
|Oh et al.
|1992
RNAT|mRNA
CC|P2-initiated transcripts contain a 1727-nucleotide 5' non coding region
| derived from exons C, D, and E. The first 55 nucleotides of exon D of the
| <fbsym>FBgn0000095==Antp</fbsym> gene were shown to mediate initiation of translation by providing an
| internal ribosome entry site (IRES) in cultured SL2 cells.
}

REF
{
REFM|FBrf0039287
|Garber et al.
|1983
REFM|FBrf0051576
|Bermingham et al.
|1990
REFM|FBrf0055836
|Roder et al.
|1992
REFM|FBrf0056111
|Oh et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000099	SYM 1 snk<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 318
ID|FBtr0000099
SYM|snk<up>+</up>RA
ASAL|<fbsym>FBal0071112==snk<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000100
ASGN|<fbsym>FBgn0003450==snk</fbsym>

REFDSR
{
RDID|FBrf0045112
|DeLotto and Spierer
|1986
RNAT|mRNA
EXNSQ|1-4, 5a, 6
CC|pupal transcript
}

REF
{
REFM|FBrf0045112
|DeLotto and Spierer
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000105	SYM 1 elav<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 2672
ID|FBtr0000105
SYM|elav<up>+</up>R
ASAL|<fbsym>FBal0068902==elav<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000106
ASGN|<fbsym>FBgn0000570==elav</fbsym>

REFDSR
{
RDID|FBrf0046130
|Campos et al.
|1987
RNAT|mRNA
BODP|<fbsym>FBgn0000570==elav</fbsym> transcripts are present in the brain and ventral nervous system of
| 6-12 hr embryos. <fbsym>FBgn0000570==elav</fbsym> transcripts are also detected in pupal (low levels)
| and adult stages, and but not in the larva. Transcripts of 6.1 and 5.4 kb
| are detected in the adult.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | 6-12 hr <a> embryonic nervous system <p>
}

REFDSR
{
RDID|FBrf0047824
|Robinow and White
|1988
RNAT|mRNA
BODP|<fbsym>FBgn0000570==elav</fbsym> transcript is first detected after stage 9 of embryogenesis. From
| stage 11 to stage 14, <fbsym>FBgn0000570==elav</fbsym> transcript is found in the central nervous
| system, and during stages 13-14, it is also detected in the dorsal
| ectoderm, in a segmentally repeated pattern. During larval development,
| <fbsym>FBgn0000570==elav</fbsym> is expressed in the medulla cortex of the larval brain, the ventral
| ganglion, as well as posterior to the morphogenetic furrow in the
| eye-antennal disc. During pupariation, <fbsym>FBgn0000570==elav</fbsym> transcript continues to be
| detected in the cortical regions of the central nervous system, and by the
| 96th hour of pupariation, is also expressed in an organ of the peripheral
| nervous system, the Johnston's organ. <fbsym>FBgn0000570==elav</fbsym> expression in this organ
| persists to adulthood. At 96 hours of pupariation, <fbsym>FBgn0000570==elav</fbsym> expression in the
| pupal head is seen in the cell bodies of the brain, optic lobes, and
| lamina, but is absent from the neuropils of these structures. Careful in
| situ analysis has shown that <fbsym>FBgn0000570==elav</fbsym> transcript is absent from neuroblasts
| during embryogenesis and larval development, although it is expressed, and
| persists, in postmitotic neurons, suggesting that <fbsym>FBgn0000570==elav</fbsym> function is
| required for the development and maintenance of neurons.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | stage 11-14 <a> embryonic central nervous system | presumptive <p>
|<t> E | stage 13-14 <a> dorsal ectoderm <p> segmentally repeated
|<t> L | third instar <a> larval brain <p>
|<t> L | third instar <a> morphogenetic furrow | posterior to <p>
|<t> L | third instar <a> ventral ganglion <p>
|<t> P | 96 hr <a> thoracic ganglion  <p><t> A <a> Johnston's organ <p>
}

REF
{
REFM|FBrf0046130
|Campos et al.
|1987
REFM|FBrf0047824
|Robinow and White
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000110	SYM 1 Mhc<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 10	DT 1 6 Jan 2000	RESZ 9632
ID|FBtr0000110
SYM|Mhc<up>+</up>R
ASAL|<fbsym>FBal0068063==Mhc<up>+</up></fbsym>
DT|6 Jan 2000
|10 Mar 1998
ID2|FBtr0000111
ASGN|<fbsym>FBgn0002741==Mhc</fbsym>

REFDSR
{
RDID|FBrf0046579
|Wassenberg et al.
|1987
RNAT|mRNA
VPR|experimental
CC|Blotting, SI nuclease, primer extension, and DNA sequencing experiments were
| used to show that the larval and pupal <fbsym>FBgn0002741==Mhc</fbsym> transcripts all use the same
| transcription initiation site.
}

REFDSR
{
RDID|FBrf0049506
|Kazzaz and Rozek
|1989
RNAT|mRNA
BODP|Specific probes were designed to assay the tissue-specific use of the 18th
| exon and the alternative polyadenylation signals. It was found that
| embryonic muscles contain only transcripts lacking the 18th exon. In pupae,
| transcripts containing the 18th exonare found only in muscles of the leg,
| thorax, and head, while transcripts lacking the 18th exon are found in the
| body wall musculature of the abdomen. In both embryos and pupae, polyA site
| selection is not muscle-type specific.
ASM|in situ
}

REFDSR
{
RDID|FBrf0049799
|O'Donnell et al.
|1989
RNAT|mRNA
BODP|Probes common to all <fbsym>FBgn0002741==Mhc</fbsym> transcripts were used to show that <fbsym>FBgn0002741==Mhc</fbsym>
| transcripts are expressed in all muscles in late pupae. They are especially
| concentrated in indirect flight muscle, leg muscles and proboscis muscles.
| Little expression is seen in the abdomen.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> P | late <a> indirect flight muscle <p>
|<t> P | late <a> proboscis muscle <p>
|<t> P | late <a> skeletal muscle of leg <p>
|<t> P | late <a> mesothoracic extracoxal depressor muscle 66 <p>
}

REFDSR
{
RDID|FBrf0050538
|George et al.
|1989
RNAT|mRNA
CC|The <fbsym>FBgn0002741==Mhc</fbsym> gene is composed of 19 exons. Five of these exons (3,7,9,11,15)
| are tandemly repeated as 2-5 divergent copies. In a given <fbsym>FBgn0002741==Mhc</fbsym> transcript
| one copy of each of these exons is present. In addition, exon 18 is found
| only in pupal and adult <fbsym>FBgn0002741==Mhc</fbsym> transcripts. There are at least 480 possible
| transcripts that can be encoded by these exons. RNA hybridization with
| exon-specific probes shows that at least 10 of the possible transcripts
| exist in the fly. These are regulated in a stage and muscle-specific
| manner. Evidence is presented on the use of each of the alternate exons in
| larval and pupal <fbsym>FBgn0002741==Mhc</fbsym> transcripts. Further, the use of exons 15a and 15b
| (which encode part of the hinge region of the protein) was studied in
| dissected tissues. In summary, Exons 7d, 11b, and 18 are pupal specific.
| Exons 3a, 7a, 7b, and 11c are not present in transcripts containing the
| thorax-specific exon 18, whereas exons 7d and 11b are predominantly
| expressed in pupal RNAs containing exon 18. Exon 15b is predominantly
| expressed in larvae while exon 15a is predominantly expressed in adults.
| Exons 15a and 15b are both expressed in thorax, but 15a is the exclusive
| form expressed in the IFM.
}

REFDSR
{
RDID|FBrf0050710
|Levin et al.
|1989
RNAT|mRNA
BODP|<fbsym>FBgn0002741==Mhc</fbsym> transcripts were detected in somatic and visceral muscles in late
| embryos and thoracic, abdominal, and leg muscles in late pupae. The pattern
| is similar to that of the adjacent gene <fbsym>FBgn0033189==Cyt-b5</fbsym>.
CVBODP|<t> E | stage 16 <a> somatic muscle <p>
|<t> E | stage 16 <a> visceral muscle <p>
|<t> P | late <a> skeletal muscle of thorax <p>
|<t> P | late <a> skeletal muscle of abdomen <p>
|<t> P | late <a> skeletal muscle of leg <p>
}

REFDSR
{
RDID|FBrf0051863
|Collier et al.
|1990
RNAT|mRNA
BODP|Antisense probes were used to determine the tissue specificity of alternate
| <fbsym>FBgn0002741==Mhc</fbsym> exon usage in wild type animals. Exon 15b is used in transcripts in
| all larval muscles while exon 15a shows no hybridization to larval muscles.
| In adults, exon15a but not 15b is found in indirect flight muscle and jump
| muscles. Both are used in various head and leg muscles. Indirect evidence
| from the distribution of functional muscles in Mhc[10] mutants (which lack
| exon 15a-containing transcripts) suggests that in wild type, exons 15a and
| 15b are about equally used in intracoxal levator muscles, that 15a is the
| predominant form in intracoxal depressor muscles, and that 15b is the form
| used in dorsal body wall muscles. Antisense RNA probes were also used to
| study the distribution of exon 15a and 15b-containing <fbsym>FBgn0002741==Mhc</fbsym> transcripts in
| Mhc[10] mutants at different developmental stages. The pattern of larval
| transcription is unchanged in the mutant as determined by hybridization to
| exon 15b. In pupae, both larval size classes of RNA (6.1kb and 6.6kb)
| accumulate normally. The transcripts (6.6kb and 7.1kb) that normally appear
| first in pupae and are detected with exon 15a are absent.
ASM|miscellaneous
CVBODP|miscellaneous
|<t> L <a> larval muscle system <p>
|<t> A <a> indirect flight muscle <p>
|<t> A <a> mesothoracic extracoxal depressor muscle 66 <p>
|<t> A <a> intracoxal depressor muscle <p>
|<t> A <a> intracoxal levator muscle <p>
|<t> A <a> skeletal muscle ofhead <p>
|<t> A <a> skeletal muscle of leg <p>
|<t> A <a> skeletal muscle of abdomen <p>
}

REFDSR
{
RDID|FBrf0053362
|Corbin et al.
|1991
RNAT|mRNA
AGT|<fbsym>FBal0002638==Dl<up>X</up></fbsym>
|<fbsym>FBal0012750==N<up>264-47</up></fbsym>
BODP|In the neurogenic mutants, <fbsym>FBgn0002741==Mhc</fbsym> expression is induced in the mesoderm but
| the cells are arranged in irregular clusters.
ASM|in situ
CVBODP|<t> E <a> somatic mesoderm <p>
|<t> E <a> larval somatic muscle <p>
}

REFDSR
{
RDID|FBrf0053881
|Kronert et al.
|1991
RNAT|mRNA
BODP|Use of <fbsym>FBgn0002741==Mhc</fbsym> exons 9a, 9b, and 9c in wild type was studied by northern blots
| and in situ hybridization. Exon 9a is found only at the pupal stage in the
| 6.6kb and 7.1kb transcripts (which also include exon 18). Exon 9b is used
| in all size classes of RNA in both larvae and pupae. Exon 9c is used at
| both stages but only in transcripts that lack exon 18 (6.1kb and 6.6kb). In
| pupae, exons 9a and 9b are used in roughly equivalent amounts and are each
| ~2.5 times more abundant than transcripts containing exon 9c. In larvae,
| exon 9b-containing transcripts are 16-fold more abundant than those
| containing exon 9c. In adult sections, the exon 9a probe hybridizes
| strongly to thoracic musculature but not to leg or cephalic muscles. Within
| the thorax, it accumulates in the indirect flight muscles and in both the
| small and large cells of the jump muscles, but not the pleurosternal
| muscles. Exon 9b hybridizes to thoracic muscles, and to leg and proboscis
| muscles. In the thorax, it is found in the large cells of the jump muscles
| and in the pleurosternal muscles, but not in the IFM. Exon 9c-containing
| transcripts were not detected but are thought to accumulate in visceral
| musculature and body wall muscles. <fbsym>FBgn0002741==Mhc</fbsym> transcription in the <fbsym>FBal0012252==Mhc[11]</fbsym>
| mutant was also studied.
ASM|northern blot
|in situ
CVBODP|in situ
|<t> A <a> indirect flight muscle <p>
|<t> A <a> mesothoracic pleurosternal muscle <p>
|<t> A <a>  mesothoracic extracoxal depressor muscle 66 <p>
|<t> A <a> proboscis muscle <p>
|<t> A <a> skeletal muscle of leg <p>
}

REFDSR
{
RDID|FBrf0054371
|Hastings and Emerson
|1991
RNAT|mRNA
BODP|Muscle-specific expression of <fbsym>FBgn0002741==Mhc</fbsym> exons was studied by in situ
| hybridization. It was found that for each exon set examined, only one
| isoform was detectable in each of the muscles studied (IFM, TDT, DFM, and
| esophagus). Exon 3b was present in all of the muscles. For exon 7, 7d is
| present in IFM, 7a and 7d in tubular muscle and 7a in esophageal muscle
| (visceral muscle). For exon 11, only exon 11e is expressed in IFM, 11b is
| expressed in the TDT and DFM #51, and 11c in DFM #52 and esophageal muscle.
| For exon 15, 15a is expressed in IFM, TDT, DFM #51 and 15b in DFMs #49, 52,
| and 53 and esophageal muscle. Exon 9 isoform expression was not determined.
| It was shown that different <fbsym>FBgn0002741==Mhc</fbsym> isoforms are expressed in the three major
| muscle types in the adult thorax.
ASM|in situ
}

REFDSR
{
RDID|FBrf0091196
|Wells et al.
|1996
RNAT|mRNA
CC|<fbsym>FBgn0002741==Mhc</fbsym> transcripts are generated by alternative splicing. Of the 19 exons, 5
| are alternatively spliced sets (3,7,9,11,15) and one is either excluded or
| included (18). It does not appear that transcripts containing all of the
| possible combinations of exons are actually produced in the fly. cDNAs were
| isolated and characterized as to which of the alternate exons they contain.
| None contain exon 18. The combinations (only alternate exon forms are
| specified) that were isolated were 1)3a,7a,9b,11d,15b 2)3a,7a,9c,11e,15b
| 3)3b,7a,9b,11d,15b and 4)3b,7a,9b,11b,15b. Form 1 (which is normally
| expressed in embryos) was transformed into flies behind a <fbsym>FBgn0002741==Mhc</fbsym> promoter
| and expressed in all muscles. It was used to study isoform specificity of
| <fbsym>FBgn0002741==Mhc</fbsym> function.
}

REF
{
REFM|FBrf0046579
|Wassenberg et al.
|1987
REFM|FBrf0049506
|Kazzaz and Rozek
|1989
REFM|FBrf0049799
|O'Donnell et al.
|1989
REFM|FBrf0050538
|George et al.
|1989
REFM|FBrf0050710
|Levin et al.
|1989
REFM|FBrf0051863
|Collier et al.
|1990
REFM|FBrf0053362
|Corbin et al.
|1991
REFM|FBrf0053881
|Kronert et al.
|1991
REFM|FBrf0054371
|Hastings and Emerson
|1991
REFM|FBrf0091196
|Wells et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000111	SYM 1 Mhc<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 558
ID|FBtr0000111
SYM|Mhc<up>+</up>RA
ASAL|<fbsym>FBal0068063==Mhc<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000112
ASGN|<fbsym>FBgn0002741==Mhc</fbsym>
ASPP|<fbsym>FBpp0001628==Mhc<up>+</up>PB</fbsym>

REFDSR
{
RDID|FBrf0046579
|Wassenberg et al.
|1987
RNAT|mRNA
EXNSQ|1,2,3a,4,5
CC|Two exon 3 sequences were found that would encode different <fbsym>FBgn0002741==Mhc</fbsym> proteins
| (17 of 48 amino acids encoded by the exon differ) but no direct evidence
| was presented that both are used.
}

REF
{
REFM|FBrf0046579
|Wassenberg et al.
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000112	SYM 1 Mhc<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 558
ID|FBtr0000112
SYM|Mhc<up>+</up>RB
ASAL|<fbsym>FBal0068063==Mhc<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000113
ASGN|<fbsym>FBgn0002741==Mhc</fbsym>
ASPP|<fbsym>FBpp0001629==Mhc<up>+</up>PC</fbsym>

REFDSR
{
RDID|FBrf0046579
|Wassenberg et al.
|1987
RNAT|mRNA
EXNSQ|1,2,3b,4,5
CC|Two exon 3 sequences were found that would encode different <fbsym>FBgn0002741==Mhc</fbsym> proteins
| (17 of 48 amino acids encoded by the exon differ) but no direct evidence
| was presented that both are used.
}

REF
{
REFM|FBrf0046579
|Wassenberg et al.
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000128	SYM 1 H<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1728
ID|FBtr0000128
SYM|H<up>+</up>R
ASAL|<fbsym>FBal0067871==H<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000129
ASGN|<fbsym>FBgn0001169==H</fbsym>
SK|FBst1001750
|(w);  <fbsym>FBal0067871==H[+]</fbsym> Pr[1] Bsb[1]/TM2 (6?)
|Total=1

REFDSR
{
RDID|FBrf0056117
|Bang and Posakony
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0001169==H</fbsym> transcripts are detected in ovaries in nurse cells. Maternal transcripts
| are present in syncytial embryos until cellular blastoderm. Zygotic
| transcripts are broadly distributed throughout the embryo during germband
| extension and retraction. They initially accumulate at higher levels in the
| mesodermal layer and are consistently seen at lower levels in the head
| region particulary in the procephalic lobe and the clypeolabrum. <fbsym>FBgn0001169==H</fbsym>
| transcripts are observed in the developing CNS at the time of action of the
| zygotic neurogenic genes. A widespread, uniform distribution of transcripts
| is seen in late third instar larval imaginal discs. In early pupae, a
| uniform distribution is seen in notal epithelium with the exception of two
| cells that show a higher level of transcript accumulation. Later, elevated
| levels of <fbsym>FBgn0001169==H</fbsym> expression are seen in cells that have been identified as the
| tormogen and trichogen cells.
ASM|in situ
CVBODP|<t> O,A <a> nurse cell <p>
|<t> E <a> mesoderm <p>
|<t> E <a> head <p>
|<t> E <a> labral segment <p>
|<t> E <a> procephalic segment <p>
|<t> E <a> central nervous system <p>
|<t> L | third instar stage 2 <a> imaginal disc <p>
|<t> P | early <a> epithelial cell <of> dorsal mesothoracic disc <p>
|<t> P | >16 hr <a> tormogen cell <p>
}

REF
{
REFM|FBrf0056117
|Bang and Posakony
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000149	SYM 1 Pkn<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 302
ID|FBtr0000149
SYM|Pkn<up>+</up>RA
SYN|Pk45C<up>+</up>RA
ASAL|<fbsym>FBal0079604==Pkn<up>+</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0000150
ASGN|<fbsym>FBgn0020621==Pkn</fbsym>

REFDSR
{
RDID|FBrf0048100
|Kalderon and Rubin
|1988
RNAT|mRNA
}

REF
{
REFM|FBrf0048100
|Kalderon and Rubin
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000152	SYM 1 for<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 279
ID|FBtr0000152
SYM|for<up>+</up>RA
ASAL|<fbsym>FBal0068959==for<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000153
ASGN|<fbsym>FBgn0000721==for</fbsym>

REFDSR
{
RDID|FBrf0048100
|Kalderon and Rubin
|1988
RNAT|mRNA
}

REF
{
REFM|FBrf0048100
|Kalderon and Rubin
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000159	SYM 1 otu<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 16 Sep 1998	RESZ 940
ID|FBtr0000159
SYM|otu<up>+</up>R
SYN|K
ASAL|<fbsym>FBal0070856==otu<up>+</up></fbsym>
DT|16 Sep 1998
|10 Mar 1998
ID2|FBtr0000160
ASGN|<fbsym>FBgn0003023==otu</fbsym>

REFDSR
{
RDID|FBrf0048651
|Mulligan et al.
|1988
RNAT|mRNA
BODP|Three to four <fbsym>FBgn0003023==otu</fbsym> transcripts in the 3.5kb to 4.5kb size range are
| detected in testis RNA.
ASM|dissected tissue
CVBODP|dissected tissue
|<t> A,S <a> testis <p>
}

REFDSR
{
RDID|FBrf0063780
|Parks and Spradling
|1987
RNAT|mRNA
BODP|<fbsym>FBgn0003023==otu</fbsym> transcript is detected in nurse cells from stage S6 to stage S10B.
| <fbsym>FBgn0003023==otu</fbsym> transcript begins to be detected in the oocyte from stage S10A
| onwards, and is distributed uniformly in the oocyte after the nurse cell
| breakdown at stage S10B.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
}

REF
{
REFM|FBrf0048651
|Mulligan et al.
|1988
REFM|FBrf0063780
|Parks and Spradling
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000160	SYM 1 ct<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 1504
ID|FBtr0000160
SYM|ct<up>+</up>R
ASAL|<fbsym>FBal0068792==ct<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000161
ASGN|<fbsym>FBgn0004198==ct</fbsym>

REFDSR
{
RDID|FBrf0048770
|Blochlinger et al.
|1988
RNAT|mRNA
CC|Fragments of the 8.2 kb sequence hybridize to at least two transcripts of
| 8.5 and 9.5 kb on Northern blots of early and late embryos. A 2175 amino
| acid protein is predicted from the 8.2 kb sequence.
}

REFDSR
{
RDID|FBrf0051828
|Blochlinger et al.
|1990
RNAT|mRNA
BODP|The pattern of <fbsym>FBgn0004198==ct</fbsym> transcript expression during embryogenesis matches that
| of <fbsym>FBgn0004198==ct</fbsym> protein expression. The precursors of the external sensory organs,
| and later the trichogen, tormogen, thecogen and neuron of most of the
| externalsensory organs express <fbsym>FBgn0004198==ct</fbsym>. The region surrounding the anterior
| and posterior spiracle precursors, the Malpighian tubule, and a subset of
| the CNS express the <fbsym>FBgn0004198==ct</fbsym> transcript starting at 5-7 hours of embryogenesis.
ASM|in situ
CVBODP|in situ
|<t> E | >5-6 hr <a> external sensory organ <p>
|<t> E | >5-6 hr <a> embryonic/larval posterior spiracle | surrounding <p>
|<t> E | >5-6 hr <a> embryonic/larval anterior spiracle | surrounding <p>
|<t> E | >5-6 hr <a> Malpighian tubule <p>
|<t> E | >6-7 hr <a> embryonic central nervous system | presumptive | restricted <p>
}

REF
{
REFM|FBrf0048770
|Blochlinger et al.
|1988
REFM|FBrf0051828
|Blochlinger et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000169	SYM 1 Ecol\lacZ<up>Sry-&agr;.C&agr;N'&bgr;G</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1447
ID|FBtr0000169
SYM|Ecol\lacZ<up>Sry-&agr;.C&agr;N'&bgr;G</up>RA
SYN|lacZ<up>Sry-alpha.CalphaN'betaG</up>RA
ASAL|<fbsym>FBal0047532==Ecol\lacZ<up>Sry-&agr;.C&agr;N'&bgr;G</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000170
ASTP|<fbsym>FBtp0005472==P{C&agr;N'&bgr;G}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049479
|Schweisguth et al.
|1989
RNAT|mRNA
BODP|In flies transformed with <fbsym>FBgn0003510==Sry-alpha</fbsym>-<fbsym>FBgn0014447==Ecol\lacZ</fbsym> constructs,
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression was detected in the cellular blastoderm embryo in
| all but the pole cells. Expression was weaker in the
| <fbsym>lacZ[Sry-alpha.CalphaNbetaG]</fbsym> and the <fbsym>lacZ[Sry-alpha.CalphaN'betaG]</fbsym>
| lines, which lack Sry-alpha sequences upstream from -311. The same two
| lines also showed neural expression during embryogenesis, which was not
| seen with the other lines, or in wild type <fbsym>FBgn0003510==Sry-alpha</fbsym>. The -118 to +130
| region was sufficient for cellular blastoderm expression, which was
| enhanced with the -311 to -118 region. The latter domain might contain
| negative regulatory elements, the removal of which would allow nervous
| system expression.
CVBODP|transcript distribution deduced from reporter protein
|<t> E | cellular blastoderm <a>  <p>
|<t> E | mid-late <a> embryonic nervous system <p>
}

REF
{
REFM|FBrf0049479
|Schweisguth et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000170	SYM 1 Ecol\lacZ<up>Sry-&agr;.C&agr;N&bgr;G</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1473
ID|FBtr0000170
SYM|Ecol\lacZ<up>Sry-&agr;.C&agr;N&bgr;G</up>RA
SYN|lacZ<up>Sry-alpha.CalphaNbetaG</up>RA
ASAL|<fbsym>FBal0047531==Ecol\lacZ<up>Sry-&agr;.C&agr;N&bgr;G</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000171
ASTP|<fbsym>FBtp0005471==P{C&agr;N&bgr;G}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049479
|Schweisguth et al.
|1989
RNAT|mRNA
BODP|In flies transformed with <fbsym>FBgn0003510==Sry-alpha</fbsym>-<fbsym>FBgn0014447==Ecol\lacZ</fbsym> constructs,
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression was detected in the cellular blastoderm embryo in
| all but the pole cells. Expression was weaker in the
| <fbsym>lacZ[Sry-alpha.CalphaNbetaG]</fbsym> and the <fbsym>lacZ[Sry-alpha.CalphaN'betaG]</fbsym>
| lines, which lack Sry-alpha sequences upstream from -311. The same two
| lines also showed neural expression during embryogenesis, which was not
| seen with the other lines, or in wild type Sry-alpha. The -118 to +130
| region was sufficient for cellular blastoderm expression, which was
| enhanced with the -311 to -118 region. The latter domain might contain
| negative regulatory elements, the removal of which would allow nervous
| system expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | cellular blastoderm <a>  <p>
|<t> E | mid-late <a> embryonic nervous system <p>
}

REF
{
REFM|FBrf0049479
|Schweisguth et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000272	SYM 1 trx<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 30 May 2001	RESZ 1590
ID|FBtr0000272
SYM|trx<up>+</up>R
ASAL|<fbsym>FBal0071404==trx<up>+</up></fbsym>
DT|30 May 2001
|10 Mar 1998
ID2|FBtr0000273
ASGN|<fbsym>FBgn0003862==trx</fbsym>

REFDSR
{
RDID|FBrf0050834
|Mozer and Dawid
|1989
RNAT|mRNA
BODP|<fbsym>FBgn0003862==trx</fbsym> transcripts are distributed ubiquitously through the early embryo. In
| later embryos, prominent labelling is observed in the ventral nerve cord.
ASM|in situ
CVBODP|in situ
|<t> E | early <a>  <p> ubiquitous
|<t> E <a> ventral nerve cord <p>
}

REFDSR
{
RDID|FBrf0076508
|Kuzin et al.
|1994
RNAT|mRNA
BODP|<fbsym>FBgn0003862==trx</fbsym> transcripts are observed in the eye-antennal disc and in the posterior
| regions of the wing, haltere, and metathoracic leg discs in a pattern
| similar to the distribution of <fbsym>FBgn0003862==trx</fbsym> protein.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic central nervous system <p>
|<t> L | third instar <a> dorsal mesothoracic disc | posterior <p>
|<t> L | third instar <a> dorsal metathoracic disc | posterior <p>
|<t> L | third instar <a> eye-antennal disc <p>
|<t> L | third instar<a> ventral mesothoracic disc | posterior <p>
|<t> L | third instar <a> imaginal disc <p>
}

REFDSR
{
RDID|FBrf0084401
|Stassen et al.
|1995
RNAT|mRNA
CC|<fbsym>FBgn0003862==trx</fbsym> transcripts appear to use one major transcription start site and two
| major polyadenylation sites. Alternative splicing and polyadenylation is
| used to generate multiple transcripts.
}

REF
{
REFM|FBrf0050834
|Mozer and Dawid
|1989
REFM|FBrf0076508
|Kuzin et al.
|1994
REFM|FBrf0084401
|Stassen et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000300	SYM 1 Nrt<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1051
ID|FBtr0000300
SYM|Nrt<up>+</up>R
ASAL|<fbsym>FBal0068126==Nrt<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000301
ASGN|<fbsym>FBgn0004108==Nrt</fbsym>

REFDSR
{
RDID|FBrf0051554
|Hortsch et al.
|1990
RNAT|mRNA
BODP|<fbsym>FBgn0004108==Nrt</fbsym> transcripts are first detected at the cellular blastoderm stage in a
| domain extending from 10-90% egg length ventrally and from 45-85% egg
| length dorsally. Later in development, they are restricted largely to the
| CNS and to a subset ofthe PNS, including sensory neurons in the head and
| posterior regions. They are also observed in the fat body.
ASM|in situ
CVBODP|in situ
|<t> E | cellular blastoderm <a>  <p> 10-90% egg length <and> ventral
|<t> E | cellular blastoderm <a>  <p> 45-85% egg length <and> dorsal
|<t> E | stage >=9 <a> embryonic central nervous system | presumptive <p>
|<t> E | stage >=9 <a> embryonic nervous system <p>
|<t> E <a> embryonic peripheral nervous system | restricted <p>
|<t> E <a> fat body primordium <p>
}

REF
{
REFM|FBrf0051554
|Hortsch et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000314	SYM 1 sgg<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 495
ID|FBtr0000314
SYM|sgg<up>+</up>R
ASAL|<fbsym>FBal0071039==sgg<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000315
ASGN|<fbsym>FBgn0003371==sgg</fbsym>

REFDSR
{
RDID|FBrf0051642
|Bourouis et al.
|1990
RNAT|mRNA
BODP|Hybridization with a probe common to all <fbsym>FBgn0003371==sgg</fbsym> transcripts reveals that they
| are uniformly distributed in the embryo and are found in all germ layers
| throughout embryogenesis.
ASM|in situ
}

REF
{
REFM|FBrf0051642
|Bourouis et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000317	SYM 1 mam<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 7 Apr 1998	RESZ 4972
ID|FBtr0000317
SYM|mam<up>+</up>R
ASAL|<fbsym>FBal0070572==mam<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000318
ASGN|<fbsym>FBgn0002643==mam</fbsym>

REFDSR
{
RDID|FBrf0051833
|Smoller et al.
|1990
RNAT|mRNA
BODP|During embryonic germ-band elongation, the <fbsym>FBgn0002643==mam</fbsym> transcript is expressed
| ubiquitously. As embryogenesis proceeds, <fbsym>FBgn0002643==mam</fbsym> transcript gets more
| restricted to neural tissue, and by the 16th hour of embryogenesis, <fbsym>FBgn0002643==mam</fbsym>
| transcript is found predominantly in the ventral nerve cord and the brain.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | 5 hr <a>  <p> ubiquitous
|<t> E | 16 hr <a> ventral nerve cord <p>
|<t> E | 16 hr <a> larval brain <p>
}

REFDSR
{
RDID|FBrf0053735
|Bettler et al.
|1991
RNAT|mRNA
BODP|A study of the expression pattern of the neurogenic gene <fbsym>FBgn0002643==mam</fbsym> up to the
| completion of gastrulation reveals early, ubiquitous expression, followed
| by preferential accumulation in ventral regions, including the mesoderm,
| endoderm, mesectoderm,and neurectoderm. In the cellular blastoderm stage,
| <fbsym>FBgn0002643==mam</fbsym> expression is ubiquitous. During early gastrulation, the expression
| of <fbsym>FBgn0002643==mam</fbsym> intensifies in the prospective mesoderm and endoderm. Later in
| gastrulation, <fbsym>FBgn0002643==mam</fbsym> expression is seen in the ventral furrow, the mesoderm,
| and a section of the ventral ectoderm which includes the mesectoderm and
| part of the neurectoderm. Expression is also seen in the anterior and
| posterior midgut primordia. At the completion of gastrulation, <fbsym>FBgn0002643==mam</fbsym>
| transcript continues to be detected in all of these tissues, as well as in
| the cephalic furrow.
ASM|in situ
CVBODP|in situ
|<t> E | cellular blastoderm <a>  <p> ubiquitous
|<t> E | gastrula <a> mesoderm | presumptive <p>
|<t> E | gastrula | early <a> endoderm | presumptive <p>
|<t> E | gastrula | early <a> ventral furrow <p>
|<t> E | gastrula <a> anterior midgut primordium<p>
|<t> E | gastrula | late <a> posterior midgut primordium <p>
|<t> E | gastrula | late <a> ectoderm | ventral <p>
|<t> E | gastrula | late <a> mesectoderm <p>
|<t> E | gastrula | late <a> neurectoderm | restricted <p>
|<t> E | gastrula | late <a> cephalic furrow <p>
}

REFDSR
{
RDID|FBrf0087692
|Schmid et al.
|1996
RNAT|mRNA
BODP|The <fbsym>FBgn0002643==mam</fbsym> transcript is detected in both neural and non-neural tissues. In
| the cellular blastoderm stage of embryogenesis, the <fbsym>FBgn0002643==mam</fbsym> transcript is
| detected at high levels in the cytoplasm of somatic cells, but is not
| expressed athigh levels in the pole cells. During gastrulation, <fbsym>FBgn0002643==mam</fbsym>
| transcript is found in the ventral and cephalic furrows, and in the gut
| rudiments. At germ band elongation, the expression of <fbsym>FBgn0002643==mam</fbsym> is highest in
| the cells of the germ band, including the mesoderm, the neural layer, and
| the gut primordia. The levels of <fbsym>FBgn0002643==mam</fbsym> in the midgut decline at germ band
| retraction, but remain high in the foregut and hindgut primordia, as well
| as in the brain and in the ventral nerve cord, in a segmentally repeated
| pattern. At stage 13 of embryogenesis, <fbsym>FBgn0002643==mam</fbsym> is detected in midline CNS
| cells, as well as in lateral clusters of CNS cells. In larvae, <fbsym>FBgn0002643==mam</fbsym>
| transcript is present uniformly in leg and wing imaginal discs, and at high
| levels anterior to the morphogenetic furrow in eye-antennal discs. Although
| present at moderate levels early in oogenesis, <fbsym>FBgn0002643==mam</fbsym> transcript is not
| detectable at stages 7 and 8. The transcript reapppears in stage 9 of
| oogenesis, and is detected at high levels in follicle cells, nurse cells,
| and oocytes at stage 10 of oogenesis.
ASM|in situ
CVBODP|in situ
|<t> E | gastrula <a> ventral furrow <p>
|<t> E | gastrula <a> cephalic furrow <p>
|<t> E | gastrulation <a> embryonic/larval digestive system | rudiment <p>
|<t> E | extended germ band stage <a> germ band <p>
|<t> E | contracted germ band stage <a> hindgut primordium <p>
|<t> E | contracted germ band stage <a> ventral nerve cord | segmentally repeated pattern <p>
|<t> E | stage 13 <a> ventral midline <p>
|<t> E | stage 13-17 <a> ventral nerve cord <p>
|<t> E | stage 13 <a> embryonic/larval foregut <p>
|<t> L <a> ventral thoracic disc <p>
|<t> L <a> dorsal mesothoracic disc <p>
|<t> L <a> eye-antennal disc <p>
|<t> L <a> morphogenetic furrow | anterior to <p>
|<t> O,A | early <a> nurse cell <p>
|<t> O,A | stage S10 <a> follicle cell <p>
|<t> O,A | stage S10 <a> nurse cell <p>
|<t> O,A | stage S10 <a> oocyte <p>
|<t> P | early <a> central nervous system | restricted <p>
}

REF
{
REFM|FBrf0051833
|Smoller et al.
|1990
REFM|FBrf0053735
|Bettler et al.
|1991
REFM|FBrf0087692
|Schmid et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000355	SYM 1 Shab<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 324
ID|FBtr0000355
SYM|Shab<up>+</up>RA
ASAL|<fbsym>FBal0068313==Shab<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000356
ASGN|<fbsym>FBgn0003383==Shab</fbsym>
ASPP|<fbsym>FBpp0001247==Shab<up>+</up>P924</fbsym>

REFDSR
{
RDID|FBrf0052716
|Butler et al.
|1990
RNAT|mRNA
}

REF
{
REFM|FBrf0052716
|Butler et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000357	SYM 1 Shal<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 416
ID|FBtr0000357
SYM|Shal<up>+</up>RA
ASAL|<fbsym>FBal0074236==Shal<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000358
ASGN|<fbsym>FBgn0005564==Shal</fbsym>
ASPP|<fbsym>FBpp0001251==Shal<up>+</up>P490</fbsym>

REFDSR
{
RDID|FBrf0052716
|Butler et al.
|1990
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0052940
|Wei et al.
|1990
RNAT|mRNA
}

REF
{
REFM|FBrf0052716
|Butler et al.
|1990
REFM|FBrf0052940
|Wei et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000361	SYM 1 zip<up>+</up>RA	TRL 1 -	ASM 1 RNase protection, primer extension, SI etc.	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 6 Jan 2000	RESZ 1452
ID|FBtr0000361
SYM|zip<up>+</up>RA
ASAL|<fbsym>FBal0071514==zip<up>+</up></fbsym>
DT|6 Jan 2000
|10 Mar 1998
ID2|FBtr0000362
ASGN|<fbsym>FBgn0005634==zip</fbsym>
ASPP|<fbsym>FBpp0001532==zip<up>+</up>P1972</fbsym>
|<fbsym>FBpp0002889==zip<up>+</up>P500</fbsym>

REFDSR
{
RDID|FBrf0047921
|Zhao et al.
|1988
RNAT|mRNA
BODP|<fbsym>FBgn0005634==zip</fbsym> transcripts are first detected after 6hr embryos. In situ
| hybridization reveals CNS-specific expression in late extended germ band
| stage embryos. Transcript levels increase during germ band retraction.
| Transcripts accumulate in the developing CNS until hatching.
CVBODP|in situ
|<t> E <a> embryonic central nervous system <p>
}

REFDSR
{
RDID|FBrf0052857
|Ketchum et al.
|1990
RNAT|mRNA
VPR|experimental
BODP|The "long" <fbsym>FBgn0005634==zip</fbsym> transcript which uses the second splice donor in exon 1 is
| 3.5X less abundant than the "short" form in all stages tested.
ASM|RNase protection, primer extension, SI etc.
|pcr
CVBODP|RNase protection, primer extension, SI etc.
|<t> E,A <a>  <p>
CC|Different classes of <fbsym>FBgn0005634==zip</fbsym> transcripts are generated by the use of two
| splice donor sites in the first exon. The second splice donor is 64 bases
| downstream of the first. The cDNA sequence in AC# M35012 contains the
| entire first exon (spliced at the downstream donor site).
}

REF
{
REFM|FBrf0047921
|Zhao et al.
|1988
REFM|FBrf0052857
|Ketchum et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000362	SYM 1 zip<up>+</up>RB	TRL 1 -	ASM 1 RNase protection, primer extension, SI etc.	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 836
ID|FBtr0000362
SYM|zip<up>+</up>RB
ASAL|<fbsym>FBal0071514==zip<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000363
ASGN|<fbsym>FBgn0005634==zip</fbsym>
ASPP|<fbsym>FBpp0001532==zip<up>+</up>P1972</fbsym>

REFDSR
{
RDID|FBrf0052857
|Ketchum et al.
|1990
RNAT|mRNA
VPR|experimental
BODP|The "short" <fbsym>FBgn0005634==zip</fbsym> transcript which uses the first splice donor in exon 1 is
| 3.5X more abundant than the "long" form in all stages tested.
ASM|RNase protection, primer extension, SI etc.
|pcr
CVBODP|RNase protection, primer extension, SI etc.
|<t> E,A <a>  <p>
CC|Different classes of <fbsym>FBgn0005634==zip</fbsym> transcripts are generated by the use of two
| splice donor sites in the first exon. The second splice donor is 64 bases
| downstream of the first.
}

REF
{
REFM|FBrf0052857
|Ketchum et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000366	SYM 1 Shal<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 318
ID|FBtr0000366
SYM|Shal<up>+</up>RB
ASAL|<fbsym>FBal0074236==Shal<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000367
ASGN|<fbsym>FBgn0005564==Shal</fbsym>
ASPP|<fbsym>FBpp0001653==Shal<up>+</up>P605</fbsym>

REFDSR
{
RDID|FBrf0052940
|Wei et al.
|1990
RNAT|mRNA
}

REF
{
REFM|FBrf0052940
|Wei et al.
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000406	SYM 1 Ecol\lacZ<up>en-AuI</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 28 Jul 1999	RESZ 1212
ID|FBtr0000406
SYM|Ecol\lacZ<up>en-AuI</up>RA
SYN|lacZ<up>Au1</up>RA
|lacZ<up>en-AuI</up>RA
ASAL|<fbsym>FBal0047662==Ecol\lacZ<up>en-AuI</up></fbsym>
DT|28 Jul 1999
|10 Mar 1998
ID2|FBtr0003779
|FBtr0000407
ASTI|<fbsym>FBti0003682==P{lwB}en<up>AuI</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>
SK|FBst0006942
|w[*]; P{w[+mW.hs]=lwB}en[AuI]/CyO
|Total=1

REFDSR
{
RDID|FBrf0053395
|Klambt et al.
|1991
RNAT|mRNA
BODP|Enhancer trap expression is observed only in the posterior pair of midline
| glia (MGP).
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> midline glial cell <p>
}

REFDSR
{
RDID|FBrf0084424
|Sun et al.
|1995
RNAT|mRNA
BODP|In embryo, "patterned" expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a>  <p>
|<t> L | third instar <a> antennal disc | restricted <p>
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> ventral thoracic disc | restricted <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0053395
|Klambt et al.
|1991
REFM|FBrf0084424
|Sun et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000418	SYM 1 Ecol\lacZ<up>eve.ET-L</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 599
ID|FBtr0000418
SYM|Ecol\lacZ<up>eve.ET-L</up>RA
SYN|lacZ<up>eve.ET-L</up>RA
ASAL|<fbsym>FBal0044003==Ecol\lacZ<up>eve.ET-L</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000419
ASTP|<fbsym>FBtp0000853==P{ET-L}</fbsym>
|<fbsym>FBmc0000904==pP{ET-L}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053745
|Perrimon et al.
|1991
RNAT|mRNA
BODP|Subcellular localization: cytoplamic.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t>  <a> cytoplasm <p>
}

REF
{
REFM|FBrf0053745
|Perrimon et al.
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000419	SYM 1 Ecol\lacZ<up>en.A</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 18 Jul 2001	RESZ 815
ID|FBtr0000419
SYM|Ecol\lacZ<up>en.A</up>RA
SYN|lacZ<up>en.A</up>RA
ASAL|<fbsym>FBal0041263==Ecol\lacZ<up>en.A</up></fbsym>
DT|18 Jul 2001
|10 Mar 1998
ID2|FBtr0000420
ASTP|<fbsym>FBtp0000310==P{en1}</fbsym>
|<fbsym>FBms0001023==enA::lacZ(6.9)</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|Acts as enhancer trap: expression pattern dependent upon site of insertion.
ASM|transcript distribution deduced from reporter protein
}

REFDSR
{
RDID|FBrf0053745
|Perrimon et al.
|1991
RNAT|mRNA
BODP|Subcellular localization: cytoplamic.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t>  <a> cytoplasm <p>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
REFM|FBrf0053745
|Perrimon et al.
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000445	SYM 1 ovo<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 7 Apr 1998	RESZ 4586
ID|FBtr0000445
SYM|ovo<up>+</up>R
ASAL|<fbsym>FBal0070857==ovo<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000446
ASGN|<fbsym>FBgn0003028==ovo</fbsym>

REFDSR
{
RDID|FBrf0053878
|Mevel-Ninio et al.
|1991
RNAT|mRNA
BODP|<fbsym>FBgn0003028==ovo</fbsym> transcript is detected at very low levels in stage 8 of oogenesis. By
| stage 10, it is present in nurse cells, predominantly in the cytoplasm, and
| at low levels in epithelial follicle cells. <fbsym>FBgn0003028==ovo</fbsym> is expressed at high
| levelsand uniformly in early embryogenesis, but by cellularization, the
| levels of transcript drop sharply. Instead, there is strong <fbsym>FBgn0003028==ovo</fbsym>
| expression in pole cells.
ASM|in situ
CVBODP|in situ
|<t> O | stage 8 <a> <p>
|<t> O,A | stage 10 <a> nurse cell <p>
|<t> O,A | stage 10 <a> follicle cell <p>
|<t> E | early <a>  <p> ubiquitous
|<t> E | cellular blastoderm <a>  <p> ubiquitous
|<t> E | cellular blastoderm <a> pole cell <p>
CC|The <fbsym>FBgn0003028==ovo</fbsym> transcript has at least 3 exons and 2 introns.
}

REFDSR
{
RDID|FBrf0076971
|Garfinkel et al.
|1994
RNAT|mRNA
BODP|<fbsym>FBgn0003028==ovo</fbsym> expression is ubiquitous in the syncytial blastoderm embryo, but
| becomes restricted to the posterior pole germ line precursor cells at
| cellular blastoderm stage. At late stage 13, <fbsym>FBgn0003028==ovo</fbsym> is expressed in a
| segmentally repeated pattern corresponding to the position of the ventral
| denticle belts. Additional staining is seen in the labial segment, the
| dorsal ridge, the stomatogastric ganglia, and the dorsal hairs. The
| germarium and early egg chamber have low levels of <fbsym>FBgn0003028==ovo</fbsym>, while the stage
| S10 nurse cell cytoplasm shows strong <fbsym>FBgn0003028==ovo</fbsym> transcript hybridization signal.
ASM|in situ
CVBODP|in situ
|<t> E | syncytial blastoderm <a>  <p> ubiquitous
|<t> E | cellular blastoderm <a> pole cell <p>
|<t> E | stage 13 | late <a> denticle belt <p> segmentally repeated
|<t> E | stage 10-11 <a> embryonic labial segment <p>
|<t> E | stage 13 | late <a> dorsal ridge <p>
|<t> E | stage 13 | late <a> stomatogastric nervous system <p>
|<t> E | stage 13 | late <a> dorsal hair <p><t> O <a> egg chamber | early <p>
|<t> O,A <a> germarium <p>
|<t> O,A | stage S10 <a> nurse cell | restricted <p>
CC|Three potential <fbsym>FBgn0003028==ovo</fbsym> mRNAs are detected on Northern blots, of 5.0, 7.1, and
| 2.7 kb. The 2.7 kb transcript might be a breakdown product of the 7.1 kb
| transcript. The 5.0 and 7.1 kb transcripts differ in their exon usage, as
| well as their polyadenylation sites.
}

REFDSR
{
RDID|FBrf0080251
|Mevel-Ninio et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0003028==ovo</fbsym> transcript is present at high levels in stage 1-2 embryos. By late
| stage 5, <fbsym>FBgn0003028==ovo</fbsym> transcript expression has become concentrated in pole cells,
| and pole cell expression is detected through stage 8, after which it
| disappearsuntil stage 17. At late stage 5, some <fbsym>FBgn0003028==ovo</fbsym> expression is also
| seen around somatic nuclei, especially in the region which will form the
| cephalic furrow, and by stage 6, <fbsym>FBgn0003028==ovo</fbsym> transcript expression is seen in two
| bands at 65-75% egg length and at 80-85% egg length. At stage 8, <fbsym>FBgn0003028==ovo</fbsym>
| expression is seen in the anterior border of the cephalic furrow, and by
| stage 10, staining is seen in the pharynx and antennal regions. By germ
| band retraction at late stage 12, an additional, segmented pattern of <fbsym>FBgn0003028==ovo</fbsym>
| transcript expression becomes visible in the anterior part of each
| abdominal and thoracic segment, which corresponds to the position of the
| denticle belt and dorsal hairs at stage 14. At stage 17, <fbsym>FBgn0003028==ovo</fbsym> transcript
| expression is restricted to the gonads.
ASM|in situ
CVBODP|in situ
|<t> E | stage 1-2 <a> <p> ubiquitous
|<t> E | stage 5-8 <a> pole cell <p>
|<t> E | stage 6 <a>  <p> 65-75% egg length
|<t> E | stage 6 <a>  <p> 80-85% egg length
|<t> E | stage 8 <a> cephalic furrow | restricted <p>
|<t> E | stage 10 <a> embryonic/larval pharynx <p>
|<t> E | stage 10 <a> antenna <p>
|<t> E | stage 12 | late <a>  <p> segmentally repeated
|<t> E | stage 12 | late <a> intercalary segment <p>
|<t> E | stage 14 <a> dorsal hair <p>
|<t> E | stage 14 <a> denticle belt | restricted <p>
|<t> E | stage 17 <a> gonad  <p>
}

REF
{
REFM|FBrf0053878
|Mevel-Ninio et al.
|1991
REFM|FBrf0076971
|Garfinkel et al.
|1994
REFM|FBrf0080251
|Mevel-Ninio et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000453	SYM 1 ph-p<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 617
ID|FBtr0000453
SYM|ph-p<up>+</up>RA
ASAL|<fbsym>FBal0070880==ph-p<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000454
ASGN|<fbsym>FBgn0004861==ph-p</fbsym>
ASPP|<fbsym>FBpp0000995==ph-p-P1</fbsym>

REFDSR
{
RDID|FBrf0054014
|Deatrick et al.
|1991
RNAT|mRNA
CC|Transcripts of 6.4kb and 6.1kb are observed in the region (FBrf457872) but
| it's not clear if they are transcribed from <fbsym>FBgn0004861==ph-p</fbsym> or <fbsym>FBgn0004860==ph-d</fbsym>.
}

REFDSR
{
RDID|FBrf0056123
|DeCamillis et al.
|1992
RNAT|mRNA
}

REF
{
REFM|FBrf0054014
|Deatrick et al.
|1991
REFM|FBrf0056123
|DeCamillis et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000461	SYM 1 Ecol\lacZ<up>GMR.A.hs</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1999	RESZ 1508
ID|FBtr0000461
SYM|Ecol\lacZ<up>GMR.A.hs</up>RA
SYN|lacZ<up>GMR.A.hs</up>RA
|lacZ<up>ninaE.A.hs</up>RA
ASAL|<fbsym>FBal0041800==Ecol\lacZ<up>GMR.A.hs</up></fbsym>
DT|28 Jul 1999
|10 Mar 1998
ID2|FBtr0000463
|FBtr0000464
|FBtr0000462
ASTP|<fbsym>FBtp0001223==P{GMR-lacZ.A}</fbsym>
|<fbsym>FBmc0001214==pP{GMR-lacZ.A}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0054063
|Moses and Rubin
|1991
RNAT|mRNA
BODP|No expression in adult brain.
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
BODP|Reporter gene expression is observed in a three zone pattern in the eye
| imaginal disc. No expression is seen anterior to the furrow, weak
| expression begins in the furrow and extends posteriorly, and strong
| expression occurs from about the 8th column of developing ommatidia to the
| back of the disc. Expression occurs only in the photoreceptor cells.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> eye-antennal disc | posterior <p>
|<t> L | third instar <a> morphogenetic furrow <p>
|<t> L | third instar <a> photoreceptor cell | presumptive <p>
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> eye-antennal disc | posterior <p>
|<t> L | third instar <a> photoreceptor cell | presumptive <p>
|<t> L | third instar <a> larval brain <p>
|<t> A <a> retina <p>
|<t> A <a> ocellus<p>
}

REF
{
REFM|FBrf0054063
|Moses and Rubin
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000462	SYM 1 Ecol\lacZ<up>GMR.C.hs</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 28 Jul 1999	RESZ 2098
ID|FBtr0000462
SYM|Ecol\lacZ<up>GMR.C.hs</up>RA
SYN|lacZ<up>GMR.C.hs</up>RA
|lacZ<up>ninaE.38-1</up>RA
|lacZ<up>ninaE.C.hs</up>RA
ASAL|<fbsym>FBal0041801==Ecol\lacZ<up>GMR.C.hs</up></fbsym>
DT|28 Jul 1999
|10 Mar 1998
ID2|FBtr0000464
|FBtr0000465
|FBtr0000728
|FBtr0000729
|FBtr0000463
ASTP|<fbsym>FBtp0001226==P{GMR-lacZ.C(38.1)}</fbsym>
|<fbsym>FBmc0001217==pP{GMR-lacZ.C(38.1)}</fbsym>
ASGN|<fbsym>FBgn0014445==Scer\GAL4</fbsym>
|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0054063
|Moses and Rubin
|1991
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
BODP|In the eye disc, reporter gene expression is found only in the posterior
| part of the disc where it is restricted to photoreceptor cells. Expression
| is also seen in the optic stalk and in Bolwig's nerve.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> eye-antennal disc | posterior <p>
|<t> L <a> Bolwig's nerve <p>
|<t> L <a> optic stalk <p>
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> eye-antennal disc | restricted <p>
|<t> L | third instar <a> morphogenetic furrow | posterior <p>
|<t> L | third instar <a> photoreceptor cell | presumptive <p>
}

REFDSR
{
RDID|FBrf0065382
|Ellis et al.
|1993
RNAT|mRNA
BODP|The reporter construct is expressed only in photoreceptor cells in the
| developing eye disc.
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
BODP|In third instar larva: expressed predominantly in photoreceptor cells in
| eye-antennal disc; also expressed in a small number of cells in the brain.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> L <a> photoreceptor cell | presumptive <p>
|transcript distribution deduced from reporter protein
|<t> L | third instar <a> eye-antennal disc <p>
|<t> L | third instar <a> photoreceptor cell | presumptive <p>
|<t> L | third instar <a> larval brain | restricted <p>
}

REF
{
REFM|FBrf0054063
|Moses and Rubin
|1991
REFM|FBrf0065382
|Ellis et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000491	SYM 1 shi<up>+</up>RA	TRL 1 3.3	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 307
ID|FBtr0000491
SYM|shi<up>+</up>RA
ASAL|<fbsym>FBal0071044==shi<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000492
ASGN|<fbsym>FBgn0003392==shi</fbsym>

REFDSR
{
RDID|FBrf0054780
|van der Bliek and Meyerowitz
|1991
RNAT|mRNA
TRL|3.3
}

REF
{
REFM|FBrf0054780
|van der Bliek and Meyerowitz
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000523	SYM 1 sgg<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 465
ID|FBtr0000523
SYM|sgg<up>+</up>RA
ASAL|<fbsym>FBal0071039==sgg<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000524
ASGN|<fbsym>FBgn0003371==sgg</fbsym>
ASPP|<fbsym>FBpp0001675==sgg<up>+</up>P496</fbsym>

REFDSR
{
RDID|FBrf0055543
|Siegfried et al.
|1992
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0058144
|Ruel et al.
|1993
RNAT|mRNA
EXNSQ|3,4,6-8,9c
CC|represented by cDNA NB11
}

REF
{
REFM|FBrf0055543
|Siegfried et al.
|1992
REFM|FBrf0058144
|Ruel et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000541	SYM 1 sas<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1473
ID|FBtr0000541
SYM|sas<up>+</up>R
ASAL|<fbsym>FBal0071011==sas<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000542
ASGN|<fbsym>FBgn0002306==sas</fbsym>

REFDSR
{
RDID|FBrf0055816
|Schonbaum et al.
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0002306==sas</fbsym> transcripts are expressed in all ectodermal tissues which produce a
| cuticle. Strong expression is observed in the hypoderm, pharynx,
| oesophagus, proventriculus, hindgut, and the trachea in stages 15 and 16.
| Expression begins early in the development of these tissues and is seen in
| the hypodermis, foregut and hindgut of stage 12 embyros. <fbsym>FBgn0002306==sas</fbsym> is expressed
| in third instar imaginal discs and in several imaginal-disc-derived tissues
| in adults including legs, wings, eyes, mouthparts, thoracic wall, and
| reproductive tract. Expression was also observed in the abdominal wall.
ASM|in situ
CVBODP|in situ
|<t> E | stage 12-16 <a> embryonic/larval foregut <p>
|<t> E | stage 12-16 <a> embryonic/larval hindgut <p>
|<t> E | stage 15-16 <a> embryonic/larval pharynx <p>
|<t> E | stage 15-16 <a> embryonic/larval oesophagus <p>
|<t> E | stage 15,16 <a> embryonic/larval proventriculus <p>
|<t> E | stage 15,16 <a> trachea <p>
|<t> E | stage 12-16 <a> epidermis <p>
|<t> L | third instar <a> imaginal disc <p>
|<t> A <a> leg <p>
|<t> A <a> wing <p>
|<t> A <a> eye <p>
|<t> A <a> mouthparts <p>
|<t> A <a> reproductive system <p>
}

REF
{
REFM|FBrf0055816
|Schonbaum et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000549	SYM 1 pum<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1295
ID|FBtr0000549
SYM|pum<up>+</up>R
ASAL|<fbsym>FBal0070931==pum<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000550
ASGN|<fbsym>FBgn0003165==pum</fbsym>
ASPP|<fbsym>FBpp0001076==pum<up>+</up>P1533</fbsym>

REFDSR
{
RDID|FBrf0055853
|MacDonald
|1992
RNAT|mRNA
EXNSQ|2-13
BODP|<fbsym>FBgn0003165==pum</fbsym> transcripts are first detected in the most mature portions of the
| germarium. They are detected throughout the egg chamber in stages S1-S5.
| <fbsym>FBgn0003165==pum</fbsym> transcripts are not present in intermediate stages but reappear at
| stage S9 atwhich time they are present in the nurse cells. <fbsym>FBgn0003165==pum</fbsym> RNA is
| transferred from nurse cells to the oocyte and are present in early
| embryos. Two patterns are seen in precellular blastoderm stage embryos. In
| some cases <fbsym>FBgn0003165==pum</fbsym> transcripts are spread throughout the embryo. In other
| cases, they are spread throughout but are further concentrated at the
| posterior pole and become associated with pole cells.
ASM|in situ
CVBODP|in situ
|<t> O,A <a> germarium <p>
|<t> O,A | stage >=S9 <a> border follicle cell <p>
|<t> E <a>  <p> ubiquitous
|<t> E <a> pole cell <p>
CC|It is not known to which transcript the cDNA corresponds.
}

REF
{
REFM|FBrf0055853
|MacDonald
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000559	SYM 1 Ecol\lacZ<up>Dpt.PR</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 863
ID|FBtr0000559
SYM|Ecol\lacZ<up>Dpt.PR</up>RA
SYN|lacZ<up>Dpt.PR</up>RA
ASAL|<fbsym>FBal0041171==Ecol\lacZ<up>Dpt.PR</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000560
ASTP|<fbsym>FBtp0004148==P{Dipt2.2-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055942
|Reichhart et al.
|1992
RNAT|mRNA
BODP|Reporter gene expression is induced in response to injection of complete
| Freund's adjuvant in late third instar larvae (96-120hr). Younger animals
| do not express the reporter gene in response to the injection. From
| pupariation on, there is a gradual decrease in the response to the
| challenge. In response to live bacteria, a faint response is seen in second
| instar larvae and a full response is seen in adults.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0055942
|Reichhart et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000567	SYM 1 otu<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 357
ID|FBtr0000567
SYM|otu<up>+</up>RA
ASAL|<fbsym>FBal0070856==otu<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000568
ASGN|<fbsym>FBgn0003023==otu</fbsym>
ASPP|<fbsym>FBpp0001680==otu<up>+</up>P853</fbsym>

REFDSR
{
RDID|FBrf0056128
|Steinhauer and Kalfayan
|1992
RNAT|mRNA
EXNSQ|1-6,6a,7,8
}

REF
{
REFM|FBrf0056128
|Steinhauer and Kalfayan
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000584	SYM 1 dsx<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 656
ID|FBtr0000584
SYM|dsx<up>+</up>R
ASAL|<fbsym>FBal0068854==dsx<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000585
ASGN|<fbsym>FBgn0000504==dsx</fbsym>

REFDSR
{
RDID|FBrf0057558
|Inoue et al.
|1992
RNAT|mRNA
CC|Six tandemly interspersed repeats of 13-nucleotide sequences (TC (T/A) (T/A)
| C (A/G) ATCAACA), in the female-specific fourth exon are necessary for
| female-specific splicing of <fbsym>FBgn0000504==dsx</fbsym> pre-mRNA. The A-, B- and C- type motifs
| function efficiently as cis elements to promote the female-specific
| splicing of <fbsym>FBgn0000504==dsx</fbsym> pre-mRNA in cells.
}

REF
{
REFM|FBrf0057558
|Inoue et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000605	SYM 1 Ecol\lacZ<up>Uch-A</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 601
ID|FBtr0000605
SYM|Ecol\lacZ<up>Uch-A</up>RA
SYN|lacZ<up>Uch-A</up>RA
ASAL|<fbsym>FBal0042205==Ecol\lacZ<up>Uch-A</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000606
ASTI|<fbsym>FBti0003567==P{A92}A</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058042
|Zhang et al.
|1993
RNAT|mRNA
BODP|Reporter gene expression is observed in nurse cells and oocytes.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> O,A <a> nurse cell <p>
|<t> O,A <a> oocyte <p>
}

REF
{
REFM|FBrf0058042
|Zhang et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000615	SYM 1 Ecol\lacZ<up>Rop.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1400
ID|FBtr0000615
SYM|Ecol\lacZ<up>Rop.P</up>RA
SYN|lacZ<up>Rop.P</up>RA
ASAL|<fbsym>FBal0041896==Ecol\lacZ<up>Rop.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000616
ASTP|<fbsym>FBtp0004437==P{lacZ<up>Rop.P</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058072
|Salzberg et al.
|1993
RNAT|mRNA
BODP|Reporter gene expression is observed in all the cells of the larval salivary
| glands. A highly specific, segmentally repeated pattern of staining was
| observed in the larval CNS, which is identical to that seen with a <fbsym>FBgn0003206==Ras64B</fbsym>
|-<fbsym>FBgn0014447==Ecol\lacZ</fbsym> line. Staining is limited to ganglion mother cells
| and cell that have already completed their divisions. In adult males,
| expression is observed in the testis in cyst cells. In the female
| reproductive system, staining is apparent in all cells including nurse
| cells, follicle cells and the oocytes.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> embryonic/larval salivary gland <p>
|<t> L <a> larval central nervous system <p>
|<t> A,S <a> testis <p>
|<t> S,A <a> cyst cell <p>
|<t> O,A | female <a> ovary <p>
|<t> O,A <a> nurse cell <p>
|<t>O,A <a> oocyte <p>
|<t> O,A <a> follicle cell <p>
ASCRGN|<fbsym>FBgn0004574==Rop</fbsym>
}

REF
{
REFM|FBrf0058072
|Salzberg et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000617	SYM 1 Psc<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 826
ID|FBtr0000617
SYM|Psc<up>+</up>R
ASAL|<fbsym>FBal0068204==Psc<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000618
ASGN|<fbsym>FBgn0005624==Psc</fbsym>

REFDSR
{
RDID|FBrf0058093
|Martin and Adler
|1993
RNAT|mRNA
BODP|<fbsym>FBgn0005624==Psc</fbsym> is expressed in the central nervous system, and in all imaginal discs
| of third instar larvae. In 24 hour pupae, <fbsym>FBgn0005624==Psc</fbsym> transcript is found in the
| epidermis, brain, and the nerve cord. In adult females, <fbsym>FBgn0005624==Psc</fbsym> isexpressed
| in the ovary.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> L | third instar <a> larval central nervous system <p>
|<t> L | third instar <a> imaginal disc <p>
|<t> P | 24 hr <a> adult brain <p>
|<t> O,A | female <a> ovary <p>
}

REF
{
REFM|FBrf0058093
|Martin and Adler
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000621	SYM 1 Ecol\lacZ<up>nau.PP</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 14 May 1999	RESZ 1630
ID|FBtr0000621
SYM|Ecol\lacZ<up>nau.PP</up>RA
SYN|lacZ<up>nau.PP</up>
|lacZ<up>nau.PP</up>RA
ASAL|<fbsym>FBal0041789==Ecol\lacZ<up>nau.PP</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000511
|FBtr0000622
|FBtr0000510
ASTP|<fbsym>FBtp0004419==P{nau-lacZ.P}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0054970
|Paterson et al.
|1991
RNAT|mRNA
BODP|The pattern of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter gene staining mimics the pattern of
| nuclear staining seen with the <fbsym>FBgn0002922==nau</fbsym> antibody.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=11 <a>  <p> segmentally repeated
|<t> E | stage >=11 <a> myoblast <of> larval muscle system <p>
|<t> E | stage >=14 <a> ventral oblique muscle <p>
|<t> E | stage >=14 <a>  <p> segmentallyrepeated
|<t> E | stage >=14 <a> abdominal 1..7 ventral oblique muscle 4 <p>
|<t> E | stage >=14 <a> abdominal 1..7 ventral oblique muscle 5 <p>
|<t> E | stage >=14 <a> abdominal 2..7 ventral oblique muscle 6 <p>
|<t> E | stage >=14 <a> abdominal 1 ventral acute muscle 1 <p>
|<t> E | stage >=14 <a> abdominal 1 ventral longitudinal muscle 1 <p>
|<t> E | stage >=14 <a> pharyngeal muscle <p>
|<t> E | stage >=14 <a> anterior spiracle retractor muscle <p>
|<t> E | stage >=14 <a> muscle fibre <of> telson <p>
ASCRGN|<fbsym>FBgn0002922==nau</fbsym>
}

REFDSR
{
RDID|FBrf0058097
|Shishido et al.
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0054970
|Paterson et al.
|1991
REFM|FBrf0058097
|Shishido et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000633	SYM 1 neur<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 16 Sep 1998	RESZ 2992
ID|FBtr0000633
SYM|neur<up>+</up>R
ASAL|<fbsym>FBal0070803==neur<up>+</up></fbsym>
DT|16 Sep 1998
|10 Mar 1998
ID2|FBtr0000634
ASGN|<fbsym>FBgn0002932==neur</fbsym>
ASPP|<fbsym>FBpp0003538==neur-P1</fbsym>

REFDSR
{
RDID|FBrf0053887
|Boulianne et al.
|1991
RNAT|mRNA
BODP|In the early embryo, <fbsym>FBgn0002932==neur</fbsym> is expressed in the ectoderm and the
| mesectoderm/mesoderm. Between 3-9 hr of embryogenesis, expression is
| detected in epidermoblasts and neuroblasts. In larval wing imaginal discs,
| <fbsym>FBgn0002932==neur</fbsym> is expressedin sensory organ precursor cells. Expression is also
| detected in the eye-imaginal disc, strongly on the posterior side of the
| morphogenetic furrow. In the central nervous system, expression is in
| proliferative centers, such as the inner and outer optic anlage of the
| brain, and the neuroblasts in the thoracic segments of the larval ventral ganglion.
ASM|in situ
CVBODP|in situ
|<t> E | early <a> mesoderm<p>
|<t> E | early <a> mesectoderm <p>
|<t> E | early <a> ectoderm <p>
|<t> E | 3-9 hr <a> neuroblast <p>
|<t> E | 3-9 hr <a> epidermoblast <p>
|<t> L | third instar stage 2 <a> sensillum precursor <of> dorsal mesothoracic disc <p>
|<t> L | third instar stage 2 <a> inner optic anlagen <p>
|<t> L | third instar stage 2 <a> outer optic anlagen <p>
|<t> L | third instar stage 2 <a> adult neuroblast <p>
|<t> L | third instar stage 2 <a> eye-antennal disc | restricted <p>
}

REFDSR
{
RDID|FBrf0058153
|Price et al.
|1993
RNAT|mRNA
BODP|Before cellularization, <fbsym>FBgn0002932==neur</fbsym> transcript is detected uniformly across the
| embryo. After the cellular blastoderm stage, the <fbsym>FBgn0002932==neur</fbsym> transcript is
| expressed in the presumptive mesoderm, first in a patchy pattern, then
| uniformly. Around the time of ventral furrow formation (stage 6) <fbsym>FBgn0002932==neur</fbsym>
| expression is weakly detected in a transverse stripe pattern. With the
| closure of the ventral furrow, <fbsym>FBgn0002932==neur</fbsym>-expressing cells are internalized.
| <fbsym>FBgn0002932==neur</fbsym> transcript is distributed uniformly in the neurectoderm of stage 9
| embryos; by stage 10, neuroblasts have slightly elevated levels of <fbsym>FBgn0002932==neur</fbsym>
| transcript in comparison to their neighbors. Clusters of cells in the
| presumptive lateral epidermis also express the <fbsym>FBgn0002932==neur</fbsym> transcript at stage
| 10. By stage 11, ventral and lateral epidermal <fbsym>FBgn0002932==neur</fbsym> transcript levels
| decline, although <fbsym>FBgn0002932==neur</fbsym> transcript persists in some neural cells later in embryogenesis.
ASM|in situ
CVBODP|in situ
|<t> E | stage 5 <a> mesoderm | presumptive <p>
|<t> E | stage 9 <a> neurectoderm <p>
|<t> E | stage 10 <a> neuroblast <p>
}

REFDSR
{
RDID|FBrf0058155
|Boulianne et al.
|1993
RNAT|mRNA
}

REF
{
REFM|FBrf0053887
|Boulianne et al.
|1991
REFM|FBrf0058153
|Price et al.
|1993
REFM|FBrf0058155
|Boulianne et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000652	SYM 1 tws<up>+</up>RA	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 729
ID|FBtr0000652
SYM|tws<up>+</up>RA
ASAL|<fbsym>FBal0071441==tws<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000653
ASGN|<fbsym>FBgn0004889==tws</fbsym>
ASPP|<fbsym>FBpp0001462==tws-P2</fbsym>

REFDSR
{
RDID|FBrf0058530
|Uemura et al.
|1993
RNAT|mRNA
EXNSQ|3-7
BODP|<fbsym>FBgn0004889==tws</fbsym> transcripts are expressed ubiquitously in wing discs. They are also
| expressed in the eye-antennal disc, leg discs, and the CNS.
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> L | third instar <a>  <p>
|in situ
|<t> L <a> dorsal mesothoracic disc <p>
|<t> L <a> ventral thoracic disc <p>
|<t> L <a> eye-antennal disc <p>
|<t> L <a> larval central nervous system <p>
}

REF
{
REFM|FBrf0058530
|Uemura et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000699	SYM 1 Sxl<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 571
ID|FBtr0000699
SYM|Sxl<up>+</up>RA
ASAL|<fbsym>FBal0068426==Sxl<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000700
ASGN|<fbsym>FBgn0003659==Sxl</fbsym>

REFDSR
{
RDID|FBrf0064442
|Erickson and Cline
|1993
RNAT|mRNA
BODP|<fbsym>FBgn0003659==Sxl</fbsym> transcripts are first detected at nuclear cycle 12, increase in
| abundance in female embryos during cycles 13 and 14, peak early in cycle
| 14, and start to decay at the end of cycle 14.
ASM|in situ
CVBODP|in situ
|<t> E | embryonic cycle 12-14 <a>  <p>
}

REF
{
REFM|FBrf0064442
|Erickson and Cline
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000702	SYM 1 Ecol\lacZ<up>Sxl.Pe</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 431
ID|FBtr0000702
SYM|Ecol\lacZ<up>Sxl.Pe</up>RA
SYN|lacZ<up>Sxl.Pe</up>RA
ASAL|<fbsym>FBal0041988==Ecol\lacZ<up>Sxl.Pe</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000703
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0064442
|Erickson and Cline
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
ASCRGN|<fbsym>FBgn0003659==Sxl</fbsym>
}

REF
{
REFM|FBrf0064442
|Erickson and Cline
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000790	SYM 1 Ecol\lacZ<up>Gld.pal+</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 818
ID|FBtr0000790
SYM|Ecol\lacZ<up>Gld.pal+</up>RA
SYN|lacZ<up>Gld.pal+.hs</up>RA
ASAL|<fbsym>FBal0055537==Ecol\lacZ<up>Gld.pal+</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0000791
ASTP|<fbsym>FBtp0001367==P{-425bpGld/lacZ}</fbsym>
|<fbsym>FBmc0001348==pP{-425bpGld/lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0068515
|Gunaratne et al.
|1994
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> embryonic/larval pharynx <p>
|<t> L | third instar <a> anterior spiracular gland <p>
|<t> L | third instar <a> larval hypodermal muscle <p>
|<t> L | third instar <a> antenno-maxillary complex <p>
|<t> A | male <a> ejaculatory duct <p>
}

REF
{
REFM|FBrf0068515
|Gunaratne et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000791	SYM 1 Ecol\lacZ<up>Gld.pal</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 596
ID|FBtr0000791
SYM|Ecol\lacZ<up>Gld.pal</up>RA
SYN|lacZ<up>Gld.pal.hs</up>RA
ASAL|<fbsym>FBal0055538==Ecol\lacZ<up>Gld.pal</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0000792
ASTP|<fbsym>FBtp0006571==P{Gpal-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0068515
|Gunaratne et al.
|1994
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A | male <a> ejaculatory bulb <p>
|<t> L | third instar <a> anterior spiracular gland <p>
}

REF
{
REFM|FBrf0068515
|Gunaratne et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000792	SYM 1 Ecol\lacZ<up>Gld.palmut</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 681
ID|FBtr0000792
SYM|Ecol\lacZ<up>Gld.palmut</up>RA
SYN|lacZ<up>Gld.palmut.hs</up>RA
ASAL|<fbsym>FBal0055539==Ecol\lacZ<up>Gld.palmut</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0000793
ASTP|<fbsym>FBtp0006572==P{Gpal(mut)-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0068515
|Gunaratne et al.
|1994
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> embryonic/larval pharynx <p>
|<t> L | third instar <a> larval hypodermal muscle <p>
|<t> L | third instar <a> antenno-maxillary complex <p>
}

REF
{
REFM|FBrf0068515
|Gunaratne et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000801	SYM 1 Ecol\lacZ<up>sna.NB</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 952
ID|FBtr0000801
SYM|Ecol\lacZ<up>sna.NB</up>RA
SYN|Ecol\lacZ<up>sna.NB</up>R
|lacZ<up>sna.NB</up>R
ASAL|<fbsym>FBal0041972==Ecol\lacZ<up>sna.NB</up></fbsym>
DT|25 Jan 2001
|10 Mar 1998
ID2|FBtr0000802
ASTP|<fbsym>FBtp0004469==P{NB}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0068539
|Ip et al.
|1994
RNAT|mRNA
BODP|When as little as 0.25 kb of sequence immediately upstream of <fbsym>FBgn0003448==sna</fbsym> is
| deleted in a <fbsym>FBgn0003448==sna</fbsym>-promoter driven <fbsym>FBgn0014447==Ecol\lacZ</fbsym> constuct, reporter
| expression is abolished in the PNS and CNS, and severely reduced in the
| mesoderm. This suggests that an augmentation element resides within the
| 0.25 kb segment.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> mesoderm <p>
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0068539
|Ip et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000825	SYM 1 tkv<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 14 Jun 2000	RESZ 3758
ID|FBtr0000825
SYM|tkv<up>+</up>R
SYN|tvk<up>+</up>R
|unnamed
ASAL|<fbsym>FBal0071387==tkv<up>+</up></fbsym>
DT|14 Jun 2000
|10 Mar 1998
ID2|FBtr0005395
|FBtr0000826
ASGN|<fbsym>FBgn0003716==tkv</fbsym>
ASPP|<fbsym>FBpp0001786==tkv<up>+</up>P</fbsym>

REFDSR
{
RDID|FBrf0072460
|Affolter et al.
|1994
RNAT|mRNA
BODP|High uniform expression of <fbsym>FBgn0003716==tkv</fbsym> transcripts is observed in unfertilized
| eggs. During cellularization, the pattern is very dynamic. With the
| exception of two small gaps, transcripts accumulate along the entire dorsal
| side of the embryo. During the late phase of cellularization, transcripts
| accumulate along the ventral side of the embryo. <fbsym>FBgn0003716==tkv</fbsym> transcripts are
| expressed in the mesoderm during mesoderm invagination and during germ band
| extension. Expression is next observed in the medial ectodermal region in
| the neurectoderm, with lower levels detected toward the midline. In stage
| 11, transcripts are expressed in the tracheal placodes. Shortly after, the
| continuous stripe of expression along the anteroposterior axis in the
| ventrolateral ectoderm is split in a segmentally repeated manner. In stage
| 13, transcripts are detected in parts of the visceral mesoderm. At stage
| 15, the sections of visceral mesoderm that express <fbsym>FBgn0003716==tkv</fbsym> are located just
| anterior to and posterior to the developing gastric caeca and in the
| posterior part of the midgut. <fbsym>FBgn0003716==tkv</fbsym> is also expressed in a complex pattern
| in the head region.
ASM|in situ
CVBODP|in situ
|<t> E | stage 5 <a> epidermis | dorsal <p>
|<t> E | stage 6-9 <a> mesoderm <p>
|<t> E | stage 11 <a> tracheal placode <p>
|<t> E | stage >12 <a> visceral mesoderm <p>
}

REFDSR
{
RDID|FBrf0076484
|Okano et al.
|1994
RNAT|mRNA
BODP|Ubiquitous expression of <fbsym>FBgn0003716==tkv</fbsym> is observed in embryonic stages 1-2.
| Expression is also ubiquitous in stages 3-4 but a slight dorso-ventral
| gradient is observed at this time. Levels begin to decrease at
| cellularization, yielding an asymmetrictranscript distribution, with the
| highest levels remaining on the dorsal side. At the beginning of
| gastrulation, expression is observed in the invaginating mesoderm and in a
| pair-rule pattern in the ectoderm. High and localized expression of <fbsym>FBgn0003716==tkv</fbsym>
| in the mesoderm is seen during germ band extension. By stage 10, expression
| is high in the entire anlagen of the germ band in the mesoderm. At stage
| 11, expression is apparent in a segmental pattern in the tracheal pits.
| After germ band retraction, expression in the mesoderm begins to withdraw.
| Expression is observed in the midgut from stage 12. At stage 16, a high
| level of expression is observed in the chambers of the first and fourth
| midgut constrictions.
ASM|in situ
CVBODP|in situ
|<t> E | early <a>  <p> ubiquitous
|<t> E | stage 3,4 <a>  <p> dorsal ventral gradient
|<t> E | stage <a>  <p>
|<t> E | stage 6-12 <a> mesoderm <p>
|<t> E | stage 6 <a> <p> pair-rule
|<t> E | stage 11 <a> tracheal pit <p>
|<t> E | stage >=12 <a> posterior midgut primordium <p>
|<t> E | stage >=12 <a> anterior midgut primordium <p>
|<t> E | stage 12-17 <a> embryonic/larval midgut <p>
|<t> E <a> midgut constriction 1 <p>
|<t> E <a> midgut constriction 4 <p>
}

REFDSR
{
RDID|FBrf0104902
|Haerry et al.
|1998
RNAT|mRNA
BODP|The <fbsym>FBgn0003716==tkv</fbsym> transcript is expressed at high levels in the pleural regions and
| the hinge region of the wing disc.
ASM|in situ
CVBODP|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
}

REF
{
REFM|FBrf0072460
|Affolter et al.
|1994
REFM|FBrf0076484
|Okano et al.
|1994
REFM|FBrf0104902
|Haerry et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000856	SYM 1 chic<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 478
ID|FBtr0000856
SYM|chic<up>+</up>R
SYN|chi<up>+</up>R
ASAL|<fbsym>FBal0097450==chic<up>+</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0000857
ASGN|<fbsym>FBgn0000308==chic</fbsym>

REFDSR
{
RDID|FBrf0073018
|Edwards et al.
|1994
RNAT|mRNA
CC|Overexpression of the <fbsym>FBgn0020863==chi</fbsym> cDNA in fission yeast causes inhibition of cell
| division and complete disruption of cell shape and of the actin cytoskeleton.
}

REF
{
REFM|FBrf0073018
|Edwards et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000899	SYM 1 Ten-m<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 14 Nov 2001	RESZ 2535
ID|FBtr0000899
SYM|Ten-m<up>+</up>R
ASAL|<fbsym>FBal0068449==Ten-m<up>+</up></fbsym>
DT|14 Nov 2001
|10 Mar 1998
ID2|FBtr0000900
ASGN|<fbsym>FBgn0004449==Ten-m</fbsym>
ASPP|<fbsym>FBpp0001371==Ten-m<up>+</up>P2515</fbsym>

REFDSR
{
RDID|FBrf0073721
|Levine et al.
|1994
RNAT|mRNA
BODP|A segmentally repeated pattern of <fbsym>FBgn0004449==Ten-m</fbsym> transcript expression becomes
| visible at 5.5-7.5 hours of embyrogenesis. At 9.5-10 hours, the cell bodies
| of a subset of cells in the central nervous system express <fbsym>FBgn0004449==Ten-m</fbsym>
| transcript ina segmentally repeated pattern.
ASM|in situ
CVBODP|in situ
|<t> E | 5.5-7.5 hr <a>  <p> segmentally repeated
|<t> E | 9.5 hr <a> embryonic central nervous system <p>
CC|The sizes of the two <fbsym>FBgn0004449==Ten-m</fbsym> transcripts are given as approximately 10 and
| 11 kb, which is in good agreement with the sizes of the two transcripts
| described in FBrf0075161.
}

REFDSR
{
RDID|FBrf0075161
|Baumgartner et al.
|1994
RNAT|mRNA
|mRNA
BODP|<fbsym>FBgn0004449==Ten-m</fbsym> transcripts are first detected in stage 5 embryos, where it is
| expressed in most regions, with the exception of the anterior and posterior
| poles. This pattern persists until early germ band extension, when 14
| stripes become visible inthe mesoderm and ectoderm. The presumptive cardiac
| cells and lymph glands stain at stage 12, and after germ band retraction at
| stage 13, additional signal is visible in the posterior spiracles, trachea,
| ventral cord, hemocytes and the supraoesophageal ganglion. At hatching,
| <fbsym>FBgn0004449==Ten-m</fbsym> transcripts are only detected in the ventral cord and brain. During
| larval and pupal stages, the ventral cord and brain, as well as the
| imaginal discs stain weakly for <fbsym>FBgn0004449==Ten-m</fbsym> transcripts, but the eye imaginal
| disc shows higher levels of expression during pupal stages.
ASM|in situ
CVBODP|in situ
|<t> E | stage 5-8 <a>  <p>
|<t> E | stage 10 <a>  <p>
|<t> E | stage 12 <a>  <p>
|<t> E | stage 12-13 <a> cardioblast <p>
|<t> E | stage 12-13 <a> lymph gland <p>
|<t> E | stage 13 <a> supraoesophageal ganglion <p>
|<t> E | stage 13 <a> ventral nerve cord <p>
|<t> E | stage 13 <a> posterior spiracle primordium <p>
|<t> E | stage 13 <a> trachea <p>
|<t> L-P <a> ventral nerve cord <p>
|<t> L-P <a> imaginal disc <p>
CC|Overlapping genomic and cDNA clones were sequenced to obtain a composite sequence.
}

REF
{
REFM|FBrf0073721
|Levine et al.
|1994
REFM|FBrf0075161
|Baumgartner et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000918	SYM 1 ey<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 23 Jul 2001	RESZ 1735
ID|FBtr0000918
SYM|ey<up>+</up>R
ASAL|<fbsym>FBal0068925==ey<up>+</up></fbsym>
DT|23 Jul 2001
|10 Mar 1998
ID2|FBtr0000919
ASGN|<fbsym>FBgn0005558==ey</fbsym>

REFDSR
{
RDID|FBrf0074219
|Quiring et al.
|1994
RNAT|mRNA
BODP|<fbsym>FBgn0005558==ey</fbsym> is expressed in the embryonic central nervous system and in the
| eye-antennal disc primordia. In third instar larvae, <fbsym>FBgn0005558==ey</fbsym> transcript
| localizes to the anterior portion of the eye-antennal disc.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic central nervous system <p>
|<t> E <a> eye-antennal disc | primordium <p>
|<t> L | third instar <a> eye-antennal disc | anterior <p>
}

REFDSR
{
RDID|FBrf0093719
|Sheng et al.
|1997
RNAT|mRNA
BODP|Levels of <fbsym>FBgn0005558==ey</fbsym> transcript decrease and are barely detectable by the end of
| the first half of pupal development. Levels subsequently increase and reach
| adult levels immediately after eclosion. <fbsym>FBgn0005558==ey</fbsym> transcripts are present at
| higher levels in wild-type flies compared to <fbsym>cli</fbsym> flies, indicating that
| the majority of <fbsym>FBgn0005558==ey</fbsym> transcript is localized to the compound eyes.
| Expression of <fbsym>FBgn0005558==ey</fbsym> transcript during Bolwig's organ (BO) development was
| studied. <fbsym>FBgn0005558==ey</fbsym> is expressed in BO precursors in stage 12 embryos, is absent
| in stage 13 to mid-stage 16 embryos, and is expressed in all BO cells in
| late stage 16-17 embryos.
CVBODP|<t> A <a> adult head <p>
|<t> P <a> <p>
|<t> E | stage 12 <a> embryonic Bolwig's organ <p>
|<t> E | stage >=16 |mid <a> embryonic Bolwig's organ <p>
}

REF
{
REFM|FBrf0074219
|Quiring et al.
|1994
REFM|FBrf0093719
|Sheng et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000984	SYM 1 nub<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 28 Jul 1999	RESZ 3629
ID|FBtr0000984
SYM|nub<up>+</up>R
ASAL|<fbsym>FBal0073963==nub<up>+</up></fbsym>
DT|28 Jul 1999
|10 Mar 1998
ID2|FBtr0001994
|FBtr0001995
|FBtr0000985
ASGN|<fbsym>FBgn0002970==nub</fbsym>
ASPP|<fbsym>FBpp0000927==nub-P1</fbsym>

REFDSR
{
RDID|FBrf0054628
|Lloyd and Sakonju
|1991
RNAT|mRNA
AGT|<fbsym>BX-C<up>-</up> | Df(3R)P9</fbsym>
|<fbsym>AS-C<up>-</up> | ?</fbsym>
|<fbsym>FBal0005403==hb<up>12</up></fbsym>
|<fbsym>FBal0004816==ftz<up>11</up></fbsym>
BODP|<fbsym>FBgn0002970==nub</fbsym> expression initiates at the cellular blastoderm stage in two bands at
| parasegments 7 and 11. Expression in the posterior stripe is stronger.
| During gastrulation, expression occurs in a segment polarity pattern with
| alternating wide and narrow stripes. In germband extended embryos, <fbsym>FBgn0002970==nub</fbsym> is
| expressed in selected CNS neurons and their support cells. CNS expression
| is stronger in T1-T3 and A8 than in A1-A7. Expression is also seen in some
| lateral and dorsal clusters of PNS cells, in the ligament cells of the
| chordotonal organs, and in two types of neurons (bipolar dendrite neurons
| and dendritic arbor cells). Expression patterns were observed in AS-C,
| BX-C, <fbsym>FBgn0000014==abd-A</fbsym>, <fbsym>FBgn0001180==hb</fbsym>, and <fbsym>FBgn0001077==ftz</fbsym> mutants. The mutant studies helped to
| establish the identities of PNS and CNS expressing cells and suggested
| regulatory interactions.
ASM|in situ
CVBODP|<t> E | cellular blastoderm <a> parasegment 7 <p>
|<t> E | cellular blastoderm <a> parasegment 11 <p>
|<t> E | stage 6 <a>  <p> odd pair-rule
|<t> E | stage 9 <a>  <p> segment polarity
|<t> E | late <a> larval labral sense organ | presumptive <p>
|<t> E | late<a> hypophysis <p>
|<t> E | late <a> embryonic peripheral nervous system | restricted <p>
|<t> E | late <a> central nervous system | restricted <p>
|<t> E | late <a> scolopidial ligament cell <of> lateral abdominal cluster <of> abdominal segment 1..7 <p>
|<t> E | late <a> bipolar dendrite neuron <of> dorsal abdominal cluster <of> abdominal segment 1..7 <p>
|<t> E | late <a> dendritic arborising neuron <of> dorsal abdominal cluster <of> abdominal segment 1..7 <p>
|<t> E | late <a> bipolar dendrite neuron <of> dorsal thoracic cluster <of> thoracic segment 2..3 <p>
|<t> E | late <a> scolopidial ligament cell <of> dorsal thoracic cluster <of> thoracic segment 2..3 <p>
|<t> E | late <a> chordotonal organ <of> lateral thoracic cluster <of> prothoracic segment <p>
|<t> E | late <a> peripheral nervous system <of> abdominal segment 8..9 <p>
}

REFDSR
{
RDID|FBrf0057550
|Prakash et al.
|1992
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0076143
|Ng et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0002970==nub</fbsym> transcripts are expressed in the developing wing primordia beginning
| in the second larval instar In the third instar the expression domain fills
| the wing pouch. In the everted disc, <fbsym>FBgn0002970==nub</fbsym> expression fills the wing blade
| andpart of the hinge region. <fbsym>FBgn0002970==nub</fbsym> is also expressed in the corresponding
| region of the haltere and in a series of faint rings in the leg discs.
ASM|in situ
CVBODP|in situ
|<t> L <a> dorsal mesothoracic disc <p>
|<t> L <a> dorsal metathoracic disc <p>
|<t> L <a> ventral thoracic disc <p>
CC|cDNA characterization revealed two different forms of <fbsym>FBgn0002970==nub</fbsym> transcript which
| differ in their first exon and are predicted to produce two proteins which
| differ in their amino termini.
}

REF
{
REFM|FBrf0054628
|Lloyd and Sakonju
|1991
REFM|FBrf0057550
|Prakash et al.
|1992
REFM|FBrf0076143
|Ng et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000987	SYM 1 fz<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 1926
ID|FBtr0000987
SYM|fz<up>+</up>R
ASAL|<fbsym>FBal0069190==fz<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0000988
ASGN|<fbsym>FBgn0001085==fz</fbsym>
SK|FBst1001775
|Df(Y;2;3)D-4rv42/fz[613];  Dp(3;4)D-4rv42, fz[+]/+
|Total=1

REFDSR
{
RDID|FBrf0076154
|Park et al.
|1994
RNAT|mRNA
BODP|<fbsym>FBgn0001085==fz</fbsym> transcripts are only detected in ovaries in adult females and are not
| detected in males. They are uniformly distributed in early embryos. In
| third instar larvae, they are expressed in all imaginal discs and in the
| brain, ventral nerve cord, and proventriculus. In pupal sections,
| hybridization was seen in all regions of the epidermis and in the CNS.
| Whole mounts of wing showed hybridization across the entire wing.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> O,A | female <a> ovary <p>
|<t> E | early <a>  <p> ubiquitous
|<t> L | third instar <a> imaginal disc <p>
|<t> L | third instar <a> larval brain <p>
|<t> L | third instar <a> ventral nerve cord <p>
|<t> L | third instar <a> embryonic/larval proventriculus <p>
|<t> P <a> epidermis <p>
|<t> P <a> central nervous system <p>
|<t> P <a> wing <p>
}

REFDSR
{
RDID|FBrf0084528
|Zheng et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0001085==fz</fbsym> transcripts are detected uniformly anterior to the morphogenetic
| furrow. Immediately anterior to the furrow, the level of expression sharply
| increases in a narrow band of cells. Staining intensity is decreased in the
| furrow and becomes intense immediately posterior to the furrow. The level
| of <fbsym>FBgn0001085==fz</fbsym> transcripts decreases to a low level about 6 rows posterior to the
| furrow. In the regions of expression, the level is uniform from the dorsal
| to ventral poles.
ASM|in situ
CVBODP|in situ
|<t> L <a> morphogenetic furrow <p>
|<t> L <a> eye-antennal disc <p>
}

REF
{
REFM|FBrf0076154
|Park et al.
|1994
REFM|FBrf0084528
|Zheng et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000991	SYM 1 Ecol\lacZ<up>gypsy.PP</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 658
ID|FBtr0000991
SYM|Ecol\lacZ<up>gypsy.PP</up>RA
SYN|lacZ<up>gypsy.PP</up>RA
ASAL|<fbsym>FBal0041516==Ecol\lacZ<up>gypsy.PP</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0000992
ASTP|<fbsym>FBtp0004304==P{gypCaSpeR}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0076432
|Pelisson et al.
|1994
RNAT|mRNA
BODP|<fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression is observed in follicle cells of females permissive
| for gypsy activity.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> O,A <a> follicle cell <p>
}

REF
{
REFM|FBrf0076432
|Pelisson et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0000992	SYM 1 gypsy\env-RA	TRL 1 2.072	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 5 Sep 2001	RESZ 791
ID|FBtr0000992
SYM|gypsy\env-RA
SYN|gypsy\env<up>+</up>R2.1
ASAL|<fbsym>FBal0105307==gypsy\env<up>+</up></fbsym>
DT|5 Sep 2001
|10 Mar 1998
ID2|FBtr0000993
ASGN|<fbsym>FBgn0014964==gypsy\env</fbsym>
ASPP|<fbsym>FBpp0001768==gypsy\env-P1</fbsym>

REFDSR
{
RDID|FBrf0076432
|Pelisson et al.
|1994
RNAT|mRNA
TRL|2.1 (northern blot)
BODP|Transcripts are detected in the follicle cells of females of strains
| permissive for gypsy activity. Expression is not uniform within follicle
| cells but appears to be concentrated near the oocyte.
ASM|in situ
CVBODP|in situ
|<t> O,A <a> follicle cell <p>
CC|A subgenomic RNA.
}

REFDSR
{
RDID|FBrf0076478
|Avedisov and Ilyin
|1994
RNAT|mRNA
TRL|2.072 (nb, sa)
}

REF
{
REFM|FBrf0076432
|Pelisson et al.
|1994
REFM|FBrf0076478
|Avedisov and Ilyin
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001032	SYM 1 Btau\MAPT<up>ap.C.T:Ecol\lacZ</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 16 Aug 2000	RESZ 1360
ID|FBtr0001032
SYM|Btau\MAPT<up>ap.C.T:Ecol\lacZ</up>RA
SYN|btau<up>ap.C.T:lacZ</up>RA
ASAL|<fbsym>FBal0044381==Ecol\lacZ<up>ap.C.T:Btau\MAPT</up></fbsym>
DT|16 Aug 2000
|10 Mar 1998
ID2|FBtr0001033
ASTP|<fbsym>FBtp0004965==P{apC-tau-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0078940
|Lundgren et al.
|1995
RNAT|mRNA
BODP|Analysis of <fbsym>Btau\MAPT[ap.C.T:Ecol\lacZ]</fbsym> expression suggests that <fbsym>FBgn0000099==ap</fbsym>
|-expressing cells are interneurons that start to elongate axons soon after
| they begin expressing <fbsym>FBgn0000099==ap</fbsym> protein.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> ventral nerve cord | restricted <p>
|<t> E <a> interneuron <p>
|<t> L <a> dorsal mesothoracic disc <p>
ASCRGN|<fbsym>FBgn0000099==ap</fbsym>
}

REFDSR
{
RDID|FBrf0105986
|Thor et al.
|1999
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> interneuron | subset <p>
ASCRGN|<fbsym>FBgn0000099==ap</fbsym>
CC|<fbsym>FBgn0002023==Lim3</fbsym> is not co-expressed with <fbsym>FBgn0003896==tup</fbsym> or <fbsym>FBgn0000099==ap</fbsym> in interneurons.
}

REF
{
REFM|FBrf0078940
|Lundgren et al.
|1995
REFM|FBrf0105986
|Thor et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001035	SYM 1 so<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 384
ID|FBtr0001035
SYM|so<up>+</up>RA
ASAL|<fbsym>FBal0071116==so<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001036
ASGN|<fbsym>FBgn0003460==so</fbsym>
ASPP|<fbsym>FBpp0001280==so-P1</fbsym>

REFDSR
{
RDID|FBrf0079386
|Serikaku and O'Tousa
|1994
RNAT|mRNA
EXNSQ|1b,2-7
CC|Minor <fbsym>FBgn0003460==so</fbsym> transcript.
}

REF
{
REFM|FBrf0079386
|Serikaku and O'Tousa
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001037	SYM 1 Ecol\lacZ<up>ct.wHZ</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 674
ID|FBtr0001037
SYM|Ecol\lacZ<up>ct.wHZ</up>RA
SYN|lacZ<up>ct.wHZ</up>RA
ASAL|<fbsym>FBal0041036==Ecol\lacZ<up>ct.wHZ</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001038
ASTP|<fbsym>FBtp0000951==P{ctwHZ}</fbsym>
|<fbsym>FBmc0001004==pP{ctwHZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0079512
|Thomas et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> marginal cell <p>
ASCRGN|<fbsym>FBgn0004198==ct</fbsym>
}

REF
{
REFM|FBrf0079512
|Thomas et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001046	SYM 1 Ecol\lacZ<up>vvl.RX</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 977
ID|FBtr0001046
SYM|Ecol\lacZ<up>vvl.RX</up>RA
SYN|lacZ<up>RX-dfr</up>RA
ASAL|<fbsym>FBal0047925==Ecol\lacZ<up>vvl.RX</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0001047
ASTP|<fbsym>FBtp0005727==P{RX-dfr-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0079852
|Anderson et al.
|1995
RNAT|mRNA
BODP|The <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter gene is strongly expressed in the developing
| tracheal tree and in the lateral oenocyte clusters but not in the stage
| 10/11 mesectoderm or the epidermis where <fbsym>FBgn0003995==vvl</fbsym> is normally strongly
| expressed. It is also expressed in the middle (MGM) and anterior (MGA)
| pairs of midline glia.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 13-16 <a> abdominal 1..7 larval oenocyte group <p>
|<t> E | stage >=10 <a> midline glial cell <p>
}

REF
{
REFM|FBrf0079852
|Anderson et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001053	SYM 1 oaf<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1783
ID|FBtr0001053
SYM|oaf<up>+</up>R
ASAL|<fbsym>FBal0070839==oaf<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001054
ASGN|<fbsym>FBgn0011818==oaf</fbsym>

REFDSR
{
RDID|FBrf0079893
|Bergstrom et al.
|1995
RNAT|mRNA
BODP|In early embryos, <fbsym>FBgn0011818==oaf</fbsym> transcripts are distributed uniformly. During
| cellularization, gastrulation, and germ band extension, they are
| distributed throughout the cellular portion of the embryo. At maximum germ
| band extension, areas of higherlocalized accumulation appear in most
| segments in clusters of cells (or in single cells in the abdominal
| segments). During germ band retraction, the localized expression
| disappears. The level of ubiquitous transcripts declines and then remains
| constant until the end of embryonic development. Localized expression
| resumes in stage 15 with expression in sets of segmentally repeated cells
| along the ventral midline and in the peripheral part of the nerve cord, as
| well as in the brain and gonad. In third instar larvae, strong expression
| is seen in male gonads with the highest levels in spermatocytes in the
| terminal end of the gonad. In ovaries, expression is observed in nurse
| cells at all stages and in the developing oocyte.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
|<t> E | stage 11 <a> germ band | restricted <p>
|<t> E | stage >15 <a> ventral nerve cord | segmentally repeated <p>
|<t> E | stage >15 <a> ventral midline | segmentally repeated <p>
|<t> E | stage >15 <a> embryonic brain <p>
|<t> E | stage >15 <a> gonad <p>
|<t> L,S | third instar <a> testis <p>
|<t> L,S | third instar <a> spermatocyte <p>
|<t> O,A | female <a> ovary <p>
|<t> O,A <a> nurse cell <p>
|<t> O,A <a> oocyte <p>
}

REF
{
REFM|FBrf0079893
|Bergstrom et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001080	SYM 1 Ecol\lacZ<up>ct.F</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 957
ID|FBtr0001080
SYM|Ecol\lacZ<up>ct.F</up>RA
SYN|lacZ<up>ct.F</up>RA
ASAL|<fbsym>FBal0047637==Ecol\lacZ<up>ct.F</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001081
ASTP|<fbsym>FBtp0005534==P{cutF-hsp70-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080124
|Jack and DeLotto
|1995
RNAT|mRNA
BODP|A 3.3 kb EcoRI fragment of the <fbsym>FBgn0004198==ct</fbsym> regulatory region fused to a minimal
| Hsp70 promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the embryonic central
| nervous system, as well as in the ventral ganglion and optic lobe of the larva.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> central nervous system <p>
|<t> L | third instar <a> larval ventral ganglion <p>
|<t> L | third instar <a> larval optic lobe <p>
ASCRGN|<fbsym>FBgn0004198==ct</fbsym>
}

REF
{
REFM|FBrf0080124
|Jack and DeLotto
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001081	SYM 1 Ecol\lacZ<up>ct.E</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1358
ID|FBtr0001081
SYM|Ecol\lacZ<up>ct.E</up>RA
SYN|lacZ<up>ct.E</up>RA
ASAL|<fbsym>FBal0047636==Ecol\lacZ<up>ct.E</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001082
ASTP|<fbsym>FBtp0005533==P{cutE-hsp70-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080124
|Jack and DeLotto
|1995
RNAT|mRNA
BODP|A 6.5kb EcoRI fragment of the <fbsym>FBgn0004198==ct</fbsym> regulatory region fused to a minimal
| Hsp70 promoter drives expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> in embryonic, larval, and
| adult tissues. In the embryo, <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression is seen in tracheal
| histoblasts, anterior spiracles, and weakly in the Malpighian tubules. In
| the larva, the ventral ganglion expresses <fbsym>FBgn0014447==Ecol\lacZ</fbsym>, while in the adult,
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> is found in simple external sensory organs (with the exception
| of the chemo- and mechanoreceptors on the wing margin).
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 12 <a> histoblast <p>
|<t> E <a> embryonic/larval anterior spiracle <p>
|<t> L | third instar <a> larval ventral ganglion <p>
|<t> A <a> external sensory organ <p>
ASCRGN|<fbsym>FBgn0004198==ct</fbsym>
}

REF
{
REFM|FBrf0080124
|Jack and DeLotto
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001082	SYM 1 Ecol\lacZ<up>ct.D</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1683
ID|FBtr0001082
SYM|Ecol\lacZ<up>ct.D</up>RA
SYN|lacZ<up>ct.D</up>RA
ASAL|<fbsym>FBal0047635==Ecol\lacZ<up>ct.D</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001083
ASTP|<fbsym>FBtp0005532==P{cutD-hsp70-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080124
|Jack and DeLotto
|1995
RNAT|mRNA
BODP|A 3.8kb HindIII fragment of the <fbsym>FBgn0004198==ct</fbsym> regulatory region fused to a minimal
| Hsp70 promoter drives expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> in embryonic and larval
| tissues. In the embryonic central nervous system (CNS), <fbsym>FBgn0014447==Ecol\lacZ</fbsym>
| expression is visible in 4 cells per segment. In the embryonic peripheral
| nervous system (PNS), <fbsym>FBgn0014447==Ecol\lacZ</fbsym> is expressed in the antenno-maxillary
| organs, the hypophysis, and the epiphysis. The ventral end of fascicles
| which carry axons from the PNS into the ganglia of the CNS express
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> in both embryos and late third instar larvae. A subset of cells
| in the internal portion of the posterior spiracles of the embryo express
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym>. <fbsym>FBgn0014447==Ecol\lacZ</fbsym> staining in the Malpighian tubules is weak.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> larval labral sense organ <p>
|<t> E <a> hypophysis <p>
|<t> E-L <a> fascicle <p>
|<t> E <a> embryonic central nervous system | restricted <p>
|<t> E <a> Malpighian tubule <p>
|<t> E <a> antenno-maxillary complex <p>
ASCRGN|<fbsym>FBgn0004198==ct</fbsym>
}

REF
{
REFM|FBrf0080124
|Jack and DeLotto
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001083	SYM 1 Ecol\lacZ<up>ct.C</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 976
ID|FBtr0001083
SYM|Ecol\lacZ<up>ct.C</up>RA
SYN|lacZ<up>ct.C</up>RA
ASAL|<fbsym>FBal0047634==Ecol\lacZ<up>ct.C</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001084
ASTP|<fbsym>FBtp0005531==P{cutC-hsp70-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080124
|Jack and DeLotto
|1995
RNAT|mRNA
BODP|A 5.4kb EcoRI fragment of the <fbsym>FBgn0004198==ct</fbsym> regulatory region fused to a minimal
| Hsp70 promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the inner cells of the
| posterior spiracles, the antenno-maxillary organs, the hypophysis, and the Malpighiantubules.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> antenno-maxillary complex <p>
|<t> E <a> hypophysis <p>
|<t> E <a> posterior spiracle primordium <p>
|<t> E <a> Malpighian tubule <p>
ASCRGN|<fbsym>FBgn0004198==ct</fbsym>
}

REF
{
REFM|FBrf0080124
|Jack and DeLotto
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001084	SYM 1 Ecol\lacZ<up>ct.B</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1006
ID|FBtr0001084
SYM|Ecol\lacZ<up>ct.B</up>RA
SYN|lacZ<up>ct.B</up>RA
ASAL|<fbsym>FBal0047633==Ecol\lacZ<up>ct.B</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001085
ASTP|<fbsym>FBtp0005530==P{cutB-hsp70-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080124
|Jack and DeLotto
|1995
RNAT|mRNA
BODP|A 3.3kb EcoRI fragment of the <fbsym>FBgn0004198==ct</fbsym> regulatory region fused to a minimal
| Hsp70 promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the Malpighian tubules,
| ephyphisis and hypophysis of the embryo, and in the optic lobes and the
| connectives between the optic lobes and central ganglion of the larva.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> larval labral sense organ <p>
|<t> E <a> hypophysis <p>
|<t> L | third instar <a> larval brain | restricted <p>
ASCRGN|<fbsym>FBgn0004198==ct</fbsym>
}

REF
{
REFM|FBrf0080124
|Jack and DeLotto
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001085	SYM 1 Ecol\lacZ<up>ct.A</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 324
ID|FBtr0001085
SYM|Ecol\lacZ<up>ct.A</up>RA
SYN|lacZ<up>ct.A</up>RA
ASAL|<fbsym>FBal0047632==Ecol\lacZ<up>ct.A</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001086
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080124
|Jack and DeLotto
|1995
RNAT|mRNA
}

REF
{
REFM|FBrf0080124
|Jack and DeLotto
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001111	SYM 1 InR<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 327
ID|FBtr0001111
SYM|InR<up>+</up>R
ASAL|<fbsym>FBal0067936==InR<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001112
ASGN|<fbsym>FBgn0013984==InR</fbsym>
ASPP|<fbsym>FBpp0000690==InR<up>+</up>P2148</fbsym>

REFDSR
{
RDID|FBrf0080360
|Ruan et al.
|1995
RNAT|mRNA
EXNSQ|1-10
}

REF
{
REFM|FBrf0080360
|Ruan et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001129	SYM 1 mnb<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 565
ID|FBtr0001129
SYM|mnb<up>+</up>R
ASAL|<fbsym>FBal0070653==mnb<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001130
ASGN|<fbsym>FBgn0002777==mnb</fbsym>

REFDSR
{
RDID|FBrf0080444
|Tejedor et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0002777==mnb</fbsym> transcripts are detected in the ventral nerved cord and in the
| supraoesophageal ganglion by in situ hybridization but not in neuroblasts
| or in the PNS.
ASM|in situ
CVBODP|in situ
|<t> E <a> ventral nerve cord <p>
|<t> E <a> supraoesophageal ganglion <p>
}

REF
{
REFM|FBrf0080444
|Tejedor et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001139	SYM 1 shn<up>+</up>RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 524
ID|FBtr0001139
SYM|shn<up>+</up>RC
ASAL|<fbsym>FBal0071046==shn<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001140
ASGN|<fbsym>FBgn0003396==shn</fbsym>

REFDSR
{
RDID|FBrf0081322
|Arora et al.
|1995
RNAT|mRNA
EXNSQ|1L
CC|The C class of <fbsym>FBgn0003396==shn</fbsym> message contains an extended exon 1 and no other
| sequences. Evidence for its existence comes from a cDNA and the
| hybridization of this cDNA to embryos. It does not contain any coding sequences.
}

REF
{
REFM|FBrf0081322
|Arora et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001209	SYM 1 Btau\MAPT<up>P\T.T:Ecol\lacZ</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1367
ID|FBtr0001209
SYM|Btau\MAPT<up>P\T.T:Ecol\lacZ</up>RA
SYN|btau<up>P\T.T:lacZ</up>RA
|tau<up>P\T.T:lacZ</up>RA
ASAL|<fbsym>FBal0044377==Ecol\lacZ<up>P\T.T:Btau\MAPT</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001210
ASTP|<fbsym>FBtp0001352==P{etau-lacZ}</fbsym>
|<fbsym>FBms0003726==P\T::btau::lacZ(P5',Bg2)</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0081545
|Callahan et al.
|1995
RNAT|mRNA
BODP|Enhancer trap expression is restricted to a cluster of about 20 interneurons
| per hemisegment. Expression commences postmitotically in the neurons as
| they begin elongating axons and continues throughout embryogenesis. Most or
| all extend their axons acrossthe midline along the anterior commissure.
| Upon reaching the contralateral longitudinal connective, the growth cones
| turn anteriorly and follow one of two discrete pathways at the medial edge
| of the connective. When they reach the adjacent anterior segment, they
| fasciculate with their homologues, forming two continuous axon fascicles in
| each connective.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> interneuron <p>
|<t> E <a> anterior commissure <p>
|<t> E <a> longitudinal connectives <p>
ASCRGN|<fbsym>FBgn0015380==drl</fbsym>
}

REF
{
REFM|FBrf0081545
|Callahan et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001220	SYM 1 belt<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 431
ID|FBtr0001220
SYM|belt<up>+</up>RA
ASAL|<fbsym>FBal0068684==belt<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001221
ASGN|<fbsym>FBgn0005635==belt</fbsym>

REFDSR
{
RDID|FBrf0081987
|Feinstein et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0005635==belt</fbsym> was shown to be induced by ubiquitous <fbsym>FBgn0003944==Ubx</fbsym> expression during embryogenesis.
ASM|in situ
}

REF
{
REFM|FBrf0081987
|Feinstein et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001269	SYM 1 CycE<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 23 Dec 2000	RESZ 917
ID|FBtr0001269
SYM|CycE<up>+</up>R
SYN|CytE<up>+</up>R
ASAL|<fbsym>FBal0066527==CycE<up>+</up></fbsym>
DT|23 Dec 2000
|10 Mar 1998
ID2|FBtr0001270
|FBtr0001372
|FBtr0001373
ASGN|<fbsym>FBgn0010382==CycE</fbsym>

REFDSR
{
RDID|FBrf0082560
|Sauer et al.
|1995
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0084309
|Richardson et al.
|1995
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0102951
|Kerber et al.
|1998
RNAT|mRNA
BODP|During Malpighian tubule development, <fbsym>FBgn0010382==CycE</fbsym> is expressed asymmetrically in
| everting tubules, and subsequently in the distal proliferation zone. With
| the onset of endomitotic cycles, <fbsym>FBgn0010382==CycE</fbsym> is also expressed from proximal to
| distal in the tubules.
ASM|in situ
CVBODP|in situ
|<t> E | stage >=10 <a> Malpighian tubule | restricted <p>
}

REF
{
REFM|FBrf0082560
|Sauer et al.
|1995
REFM|FBrf0084309
|Richardson et al.
|1995
REFM|FBrf0102951
|Kerber et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001353	SYM 1 fax<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 574
ID|FBtr0001353
SYM|fax<up>+</up>RB
ASAL|<fbsym>FBal0068930==fax<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001354
ASGN|<fbsym>FBgn0014163==fax</fbsym>
ASPP|<fbsym>FBpp0001810==fax<up>+</up>P415</fbsym>

REFDSR
{
RDID|FBrf0084025
|Hill et al.
|1995
RNAT|mRNA
EXNSQ|1,2b,3,4
CC|Evidence for this alternate form of <fbsym>FBgn0014163==fax</fbsym> RNA that uses an alternate splice
| acceptor for intron 2 comes from RT-PCR results. The relative abundance or
| importance of the two transcripts has not been determined.
}

REF
{
REFM|FBrf0084025
|Hill et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001355	SYM 1 Ecol\lacZ<up>gcm-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 2134
ID|FBtr0001355
SYM|Ecol\lacZ<up>gcm-P</up>RA
SYN|lacZ<up>gcm-P</up>RA
ASAL|<fbsym>FBal0047719==Ecol\lacZ<up>gcm-P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001356
ASTI|<fbsym>FBti0002949==P{PZ}gcm<up>P</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0084044
|Hosoya et al.
|1995
RNAT|mRNA
BODP|lacZ expression visible in whole cell body. No expression observed in
| midline glia.
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
BODP|<fbsym>FBgn0014179==gcm</fbsym> transcripts are expressed in glial precursors and immature glial cells
| during a short period of gliogenesis. Expression is first detected in early
| stage 11 in the longitudinal glioblast. By mid stage 11, 2-3 other cells
| per hemisegment express <fbsym>FBgn0014179==gcm</fbsym>. Two of these have been identified as NB6-4
| and the medial-most cell body glial cell (VUM support cell). By early stage
| 12, expression is detected in several other cells which are also developing
| glial cells. Expression fades during stage 12 and is hardly detectable in
| stage 13. Enhancer trap expression was used to trace the <fbsym>FBgn0014179==gcm</fbsym>-expressing
| cells to later developmental stages. It was found that <fbsym>FBgn0014179==gcm</fbsym> is expressed
| in all glial precursors and immature glial cells except those derived from
| the mesectoderm. Outside of the CNS, <fbsym>FBgn0014179==gcm</fbsym> is expressed in the most
| anterior region of the presumptive mesoderm beginning at the cellular
| blastoderm stage, in the brain neurogenic region, and in the PNS neurogenic region.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=11 <a> interface glial cell | precursor <p>
|<t> E | stage >=11 <a> neuroblast NB6-4 <p>
|<t> E | stage >=11 <a> medial-most cell body glial cell <p>
|<t> E | stage >=11 <a> glial cell <p><t> E <a> peripheral nervous system <p>
|<t> E <a> embryonic brain <p>
|<t> E | cellular blastoderm <a>  <p>
ASCRGN|<fbsym>FBgn0014179==gcm</fbsym>
}

REF
{
REFM|FBrf0084044
|Hosoya et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001362	SYM 1 sr<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 719
ID|FBtr0001362
SYM|sr<up>+</up>R
ASAL|<fbsym>FBal0071143==sr<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001363
ASGN|<fbsym>FBgn0003499==sr</fbsym>

REFDSR
{
RDID|FBrf0084118
|Lee et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0003499==sr</fbsym> transcripts are expressed from embryonic stage 14 in segment border
| cells, which serve as attachment sites for developing myotubes. They are
| not found in developing muscle.
ASM|in situ
CVBODP|<t> E | stage >=14 <a> muscle attachment site <p>
CC|It is not clear to which transcript the cDNA corresponds and the predicted
| protein sequence from the cDNA is common to both forms of <fbsym>FBgn0003499==sr</fbsym> protein.
}

REF
{
REFM|FBrf0084118
|Lee et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001404	SYM 1 Ecol\lacZ<up>arm.PV</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 14 May 1999	RESZ 1175
ID|FBtr0001404
SYM|Ecol\lacZ<up>arm.PV</up>RA
SYN|lacZ<up>arm.PV</up>RA
ASAL|<fbsym>FBal0040819==Ecol\lacZ<up>arm.PV</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001405
ASTP|<fbsym>FBtp0001247==P{arm-lacZ.V}</fbsym>
|<fbsym>FBmc0001237==pP{arm-lacZ.V}</fbsym>
|<fbsym>FBtp0012986==P{HF11}</fbsym>
ASGN|<fbsym>FBgn0014445==Scer\GAL4</fbsym>
|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0074716
|Vincent et al.
|1994
RNAT|mRNA
BODP|In embryos, expression first detectable during early gastrulation; high by
| late stage 9.  In larvae, no detectable expression in the midgut;
| expression in almost all other tissues, including discs.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E stage >=6 <a>  <p> ubiquitous
|<t> L <a>  <p> ubiquitous
|<t> P <a>  <p> ubiquitous
|<t> A <a>  <p> ubiquitous
ASCRGN|<fbsym>FBgn0000117==arm</fbsym>
}

REFDSR
{
RDID|FBrf0085422
|Lawrence et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
ASCRGN|<fbsym>FBgn0000117==arm</fbsym>
}

REF
{
REFM|FBrf0074716
|Vincent et al.
|1994
REFM|FBrf0085422
|Lawrence et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001413	SYM 1 Ecol\lacZ<up>y.VSB</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1070
ID|FBtr0001413
SYM|Ecol\lacZ<up>y.VSB</up>RA
SYN|lacZ<up>y.VSB</up>RA
ASAL|<fbsym>FBal0042273==Ecol\lacZ<up>y.VSB</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001414
ASTP|<fbsym>FBtp0004681==P{y(VSB)lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057274
|Kornezos and Chia
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter gene expression is similar, both spatially and
| temporally, to the wild type pattern of <fbsym>FBgn0004034==y</fbsym> antibody staining. The regions
| at the anterior of all abdominal segments corrsponding to the denticle
| belts, the analplates, the anterior part of the pharynx, and the hairs
| associate with Keilin's organs are all intensely stained.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | late <a> abdominal segment 1..8 | anterior <p>
|<t> E | late <a> denticle belt  <p>
|<t> E | late <a> anal plate  <p>
|<t> E | late <a> embryonic/larval pharynx | anterior <p>
|<t> E | late <a> Keilin's organ <p>
}

REF
{
REFM|FBrf0057274
|Kornezos and Chia
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001423	SYM 1 psq<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 2641
ID|FBtr0001423
SYM|psq<up>+</up>R
ASAL|<fbsym>FBal0070921==psq<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001424
ASGN|<fbsym>FBgn0004399==psq</fbsym>

REFDSR
{
RDID|FBrf0086124
|Weber et al.
|1995
RNAT|mRNA
BODP|The <fbsym>FBgn0004399==psq</fbsym> transcript is ubiquitous early in embryogenesis. At stage 5, the
| <fbsym>FBgn0004399==psq</fbsym> transcript is detected dorsally, at 20-70% egg length, and in an
| additional dorso-anterior domain. <fbsym>FBgn0004399==psq</fbsym> expression in the dorso-anterior
| region persists to stage 7/8, as does the expression in the amnioserosa.
| Later in embryogenesis, <fbsym>FBgn0004399==psq</fbsym> transcript is expressed in the mandibular,
| maxillary, and labial lobes. Based on genomic sequencing, four different
| transcripts classes are predicted for <fbsym>FBgn0004399==psq</fbsym>; these transcript classes can
| potentially code for 1085, 535, 660 or 666 amino-acid long polypeptides. A
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> enhancer trap driven by <fbsym>FBgn0004399==psq</fbsym>
| (<fbsym>FBal0050057==Ecol\lacZ[psq-F112]</fbsym>) shows that <fbsym>FBgn0004399==psq</fbsym> is present in a
| subset of tissues in third instar larval imaginal discs. In the
| eye-antennal disc, staining is found posterior to the morphogenetic furrow,
| in photoreceptor cells R3 and R4.
ASM|in situ
CVBODP|in situ
|<t> E | stage 5 <a>  <p> 20-70% egg length | dorsal
|<t> E | stage 5-8 <a>  <p> dorsal<&>anterior
|<t> E | stage 7-8 <a> amnioserosa <p>
|<t> E | late <a> mandibular segment <p>
|<t> E | late <a> maxillary segment <p>
|<t> E | late <a> labial segment <p>
|transcript distribution deduced from reporter protein
|<t> L | third instar <a> morphogenetic furrow | posterior to <p>
|<t> L | third instar <a> ventral thoracic disc | restricted <p>
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> eye-antennal disc | restricted <p>
|<t> L | third instar <a> receptor cell R3,R4 | precursor <p>
CC|The 11 exons of <fbsym>FBgn0004399==psq</fbsym> are spread over more than 110 kb, and include 3
| alternative 5' exons. Additionally, an internal segment of exon 3 can be
| spliced out to give a variant exon 3. These variations give rise to at
| least 6 different transcripts, and 3 transcript classes. The embryonic
| <fbsym>FBgn0004399==psq</fbsym> transcripts described in <fbsym>FBrf0086124</fbsym> differ from the ovarian <fbsym>FBgn0004399==psq</fbsym>
| transcripts described in <fbsym>FBrf0088214</fbsym> in their 5' and 3' ends. As a
| result, the predicted proteins also differ.
}

REF
{
REFM|FBrf0086124
|Weber et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001483	SYM 1 ara<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1540
ID|FBtr0001483
SYM|ara<up>+</up>R
ASAL|<fbsym>FBal0075715==ara<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001484
ASGN|<fbsym>FBgn0015904==ara</fbsym>

REFDSR
{
RDID|FBrf0086419
|Gomez-Skarmeta et al.
|1996
RNAT|mRNA
BODP|Embryonic <fbsym>FBgn0015904==ara</fbsym> expression begins at stage 11 in the lateral epidermis and
| is later seen in the proventriculus and in parts of the procephalon. In
| larvae, expression is observed in imaginal discs and weakly in the ventral
| ganglion of the brain. In late 2nd instars, expression starts at the
| presumptive notum region of the wing imaginal disc. Expression increases in
| the third instar in two large areas of the presumptive lateral heminotum.
| From the mid-third instar, expression is observed at the presumptive distal
| tegula, the dorsal radius, proximal vein L1, veins L3 and L5, the alula,
| and the pleura.
ASM|in situ
CVBODP|in situ
|<t> E | stage >=11 <a> epidermis | lateral <p>
|<t> E | late <a> embryonic/larval proventriculus <p>
|<t> E | late <a> procephalic segment <p>
|<t> L <a> imaginal disc <p>
|<t> L <a> larval ventral ganglion <p>
|<t> L | second instar <a> dorsal metathoracic disc <p>
|<t> L | third instar <a> dorsal metathoracic disc <p>
|<t> L | third instar <a> wing vein L1 <p>
|<t> L | third instar <a> wing vein L3 <p>
|<t> L | third instar <a> wing vein L5 <p>
|<t> L | third instar <a> tegula <p>
|<t> L | third instar <a> alula <p>
|<t> L | third instar <a> mesothoracic pleurum <p>
}

REF
{
REFM|FBrf0086419
|Gomez-Skarmeta et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001487	SYM 1 caup<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 1532
ID|FBtr0001487
SYM|caup<up>+</up>R
ASAL|<fbsym>FBal0075726==caup<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001488
ASGN|<fbsym>FBgn0015919==caup</fbsym>

REFDSR
{
RDID|FBrf0086419
|Gomez-Skarmeta et al.
|1996
RNAT|mRNA
BODP|Embryonic <fbsym>FBgn0015919==caup</fbsym> expression begins at stage 11 in the lateral epidermis and
| is later seen in the proventriculus and in parts of the procephalon. In
| larvae, expression is observed in imaginal discs and weakly in the ventral
| ganglion of the brain. In late 2nd instars, expression starts at the
| presumptive notum region of the wing imaginal disc. Expression increases in
| the third instar in two large areas of the presumptive lateral heminotum.
| From the mid-third instar, expression is observed at the presumptive distal
| tegula, the dorsal radius, proximal vein L1, veins L3 and L5, the alula,
| and the pleura.
CVBODP|in situ
|<t> E | stage >=11 <a> epidermis | lateral <p>
|<t> E | late <a> embryonic/larval proventriculus <p>
|<t> E | late <a> procephalic segment <p>
|<t> L <a> imaginal disc <p>
|<t> L <a> larval ventral ganglion <p>
|<t> L | second instar <a> dorsal metathoracic disc <p>
|<t> L | third instar <a> dorsal metathoracic disc <p>
|<t> L | third instar <a> wing vein L1 <p>
|<t> L | third instar <a> wing vein L3 <p>
|<t> L | third instar <a> wing vein L5 <p>
|<t> L | third instar <a> tegula <p>
|<t> L | third instar <a> alula <p>
|<t> L | third instar <a> mesothoracic pleurum <p>
}

REF
{
REFM|FBrf0086419
|Gomez-Skarmeta et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001500	SYM 1 Scm-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 1 Oct 2001	RESZ 628
ID|FBtr0001500
SYM|Scm-RB
SYN|Scm<up>+</up>R3.8
ASAL|<fbsym>FBal0068287==Scm<up>+</up></fbsym>
DT|1 Oct 2001
|10 Mar 1998
ID2|FBtr0001501
ASGN|<fbsym>FBgn0003334==Scm</fbsym>
ASPP|<fbsym>FBpp0001196==Scm-P1</fbsym>

REFDSR
{
RDID|FBrf0086923
|Bornemann et al.
|1996
RNAT|mRNA
CC|The 4.1 and 3.8 kb <fbsym>FBgn0003334==Scm</fbsym> transcripts differ only in the use of alternative
| polyadenylation sites. Both transcripts are expressed maternally, while the
| 4.1 kb <fbsym>FBgn0003334==Scm</fbsym> transcript is the predominant zygotic form.
}

REF
{
REFM|FBrf0086923
|Bornemann et al.
|1996
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001501	SYM 1 Scm<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 866
ID|FBtr0001501
SYM|Scm<up>+</up>R
ASAL|<fbsym>FBal0068287==Scm<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001502
ASGN|<fbsym>FBgn0003334==Scm</fbsym>

REFDSR
{
RDID|FBrf0086923
|Bornemann et al.
|1996
RNAT|mRNA
BODP|Levels of <fbsym>FBgn0003334==Scm</fbsym> transcript are highest in the ovary and in the first 2 hours
| of embryogenesis. <fbsym>FBgn0003334==Scm</fbsym> transcript is detected at lower levels throughout
| the rest of embryogenesis, as well as in larval and pupal stages. <fbsym>FBgn0003334==Scm</fbsym>
| transcript is distributed uniformly in 9-hour embryos, but the staining of
| the CNS intensifies by 12 hours of development.
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> E-P <a>  <p>
|<t> O,A <a> ovary <p>
|in situ
|<t> E | >12 hr <a> embryonic central nervous system <p>
}

REF
{
REFM|FBrf0086923
|Bornemann et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001511	SYM 1 pr-RA	TRL 1 1.3	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 4 Feb 2000	RESZ 1069
ID|FBtr0001511
SYM|pr-RA
SYN|pr<up>+</up>R1.3
ASAL|<fbsym>FBal0070914==pr<up>+</up></fbsym>
DT|4 Feb 2000
|10 Mar 1998
ID2|FBtr0001512
ARGS|FBgn0003141
ASGN|<fbsym>FBgn0003141==pr</fbsym>
ASPP|<fbsym>FBpp0001043==pr-P1</fbsym>
SK|FBst0004103
|Gdi[N7-3] pr[1] cn[1] Bc[1]/CyO, amos[Roi-1] cn[*] <fbsym>FBal0070914==pr[+]</fbsym>
|FBst0004104
|gcm[N7-4] pr[1] cn[1] Bc[1]/CyO, amos[Roi-1] cn[*] <fbsym>FBal0070914==pr[+]</fbsym>
|FBst0004105
|l(2)N7-6[1] pr[1] cn[1] Bc[1]/CyO, amos[Roi-1] cn[*] <fbsym>FBal0070914==pr[+]</fbsym>
|FBst0004106
|l(2)N7-8[1] pr[1] cn[1] Bc[1]/CyO, amos[Roi-1] cn[*] <fbsym>FBal0070914==pr[+]</fbsym>
|Total=4

REFDSR
{
RDID|FBrf0087504
|Kim et al.
|1996
RNAT|mRNA
TRL|1.3 (northern blot)
VPR|experimental
EXNSQ|1,2a,3-5
BODP|The 1.3 <fbsym>FBgn0003141==pr</fbsym> transcript is expressed at low to moderate levels throughout
| development. In young adults, it is present in the body but not in the head.
ASM|northern blot
CVBODP|northern blot
|<t> E-A <a>  <p>
}

REF
{
REFM|FBrf0087504
|Kim et al.
|1996
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001517	SYM 1 Ecol\lacZ<up>wg-Sp-revP</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 707
ID|FBtr0001517
SYM|Ecol\lacZ<up>wg-Sp-revP</up>RA
SYN|lacZ<up>wg-Sp-revP</up>RA
ASAL|<fbsym>FBal0050095==Ecol\lacZ<up>wg-Sp-revP</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001518
ASTI|<fbsym>FBti0004002==P{PZ}wg<up>Sp-revP</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0087628
|Neumann and Cohen
|1996
RNAT|mRNA
BODP|Reflects pattern of <fbsym>FBgn0004009==wg</fbsym> expression in wing disc.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
ASCRGN|<fbsym>FBgn0004009==wg</fbsym>
}

REF
{
REFM|FBrf0087628
|Neumann and Cohen
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001555	SYM 1 pyd<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 11 Feb 1999	RESZ 334
ID|FBtr0001555
SYM|pyd<up>+</up>RA
SYN|tam<up>+</up>RA
ASAL|<fbsym>FBal0070938==pyd<up>+</up></fbsym>
DT|11 Feb 1999
|10 Mar 1998
ID2|FBtr0001556
ASGN|<fbsym>FBgn0003177==pyd</fbsym>
ASPP|<fbsym>FBpp0001367==pyd-P1</fbsym>

REFDSR
{
RDID|FBrf0089841
|Takahisa et al.
|1996
RNAT|mRNA
}

REF
{
REFM|FBrf0089841
|Takahisa et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001561	SYM 1 pyd<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 11 Feb 1999	RESZ 513
ID|FBtr0001561
SYM|pyd<up>+</up>R
SYN|tam<up>+</up>R
ASAL|<fbsym>FBal0070938==pyd<up>+</up></fbsym>
DT|11 Feb 1999
|10 Mar 1998
ID2|FBtr0001562
ASGN|<fbsym>FBgn0003177==pyd</fbsym>

REFDSR
{
RDID|FBrf0089841
|Takahisa et al.
|1996
RNAT|mRNA
EXNSQ|1-13
BODP|<fbsym>FBgn0004406==tam</fbsym> RNA is expressed in wing discs in a complex pattern that changes
| throughout development.
ASM|in situ
CVBODP|in situ
|<t> L | third instar <a> dorsal mesothoracic disc <p>
}

REF
{
REFM|FBrf0089841
|Takahisa et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001577	SYM 1 CadN<up>+</up>RA	TRL 1 >10	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 840
ID|FBtr0001577
SYM|CadN<up>+</up>RA
SYN|anon-EST:CL32<up>+</up>RA
|anon-ESTCL32<up>+</up>RA
ASAL|<fbsym>FBal0075476==CadN<up>+</up></fbsym>
DT|21 Nov 2000
|10 Mar 1998
ID2|FBtr0001578
ASGN|<fbsym>FBgn0015609==CadN</fbsym>

REFDSR
{
RDID|FBrf0090486
|Casal and Leptin
|1996
RNAT|mRNA
TRL|>10 (northern blot)
BODP|Transcripts are expressed in ventral cells of the blastoderm embryo. The
| anterior border coincides with the anterior limit of the ventral furrow.
| The posterior border coincides with the posterior limit of the ventral
| furrow. In later embryos, mesoderm expression is reduced and expression can
| be observed in the CNS.
ASM|in situ
CVBODP|in situ
|<t> E | stage 5 <a> mesoderm anlagen <p>
|<t> E | stage >5 <a> mesoderm <p>
|<t> E | stage >=11 <a> ventral nerve cord <p>
}

REF
{
REFM|FBrf0090486
|Casal and Leptin
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001601	SYM 1 fru<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 2053
ID|FBtr0001601
SYM|fru<up>+</up>R
ASAL|<fbsym>FBal0068967==fru<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001602
ASGN|<fbsym>FBgn0004652==fru</fbsym>

REFDSR
{
RDID|FBrf0090624
|Ito et al.
|1996
RNAT|mRNA
BODP|<fbsym>FBgn0004652==fru</fbsym> transcripts were analyzed by in situ hybridization in whole mount
| brain-ganglion complexes of third instar larvae. Staining was observed in
| the mushroom body, the optic lobe and in some cells of the ganglion.
ASM|in situ
CVBODP|in situ
|<t> L | third instar <a> corpora pedunculata <p>
|<t> L | third instar <a> optic lobe <p>
|<t> L | third instar <a> larval ventral ganglion <p>
CC|Evidence for multiple classes of <fbsym>FBgn0004652==fru</fbsym> transcripts was obtained by 5'-RACE.
| Four classes of 5'-RACE products were obtained from male RNA and three from
| female RNA. One was common to both sexes. One of the female products
| contains three 13-nucleotide repeats similar to those found in <fbsym>FBgn0000504==dsx</fbsym>. The
| repeats in <fbsym>FBgn0000504==dsx</fbsym> serve as a binding site for <fbsym>FBgn0003741==tra</fbsym> protein.
}

REFDSR
{
RDID|FBrf0091159
|Ryner et al.
|1996
RNAT|mRNA
CC|Alternative splicing is used to generate multiple <fbsym>FBgn0004652==fru</fbsym> transcripts some of
| which are transcribed in a sex-specific manner. At least three different
| promoters and four 3' ends are used to generate <fbsym>FBgn0004652==fru</fbsym> transcripts.
| Sex-specific splicing of <fbsym>FBgn0004652==fru</fbsym> transcripts from the first promoter involves
| 5' splice site choice such that the upstream 5' splice site is used only in
| males and the downstream 5' splice site (1590 bases away) is used only in
| females. Sex-specific splicing is controlled by <fbsym>FBgn0003741==tra</fbsym> and <fbsym>FBgn0003742==tra2</fbsym> but is
| unaffected by <fbsym>FBgn0000504==dsx</fbsym>. Use of the second two promoters and the multiple 3'
| ends does not appear to be sex specific.
}

REF
{
REFM|FBrf0090624
|Ito et al.
|1996
REFM|FBrf0091159
|Ryner et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001649	SYM 1 Ubx<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 990
ID|FBtr0001649
SYM|Ubx<up>+</up>RA
SYN|class I
ASAL|<fbsym>FBal0068484==Ubx<up>+</up></fbsym>
DT|13 Sep 1999
|10 Mar 1998
ID2|FBtr0001650
ASGN|<fbsym>FBgn0003944==Ubx</fbsym>
SK|FBst0000491
|Dr[Mio]/TM6, <fbsym>FBal0068484==Ubx[+]</fbsym>
|Total=1

REFDSR
{
RDID|FBrf0057417
|Artero et al.
|1992
RNAT|mRNA
|mRNA
EXNSQ|1-4
BODP|An antisense oligonucleotide technique was used to study the distributions
| of the different <fbsym>FBgn0003944==Ubx</fbsym> splice variants. The <fbsym>FBgn0003944==Ubx</fbsym> splice variant containing
| both microexons is expressed at a much higher level in somatic and visceral
| mesoderm than in the CNS. It is weakly detectable in the CNS predominantly
| in parasegment 6.
ASM|in situ
CVBODP|<t> E <a> somatic mesoderm <p>
|<t> E <a> visceral mesoderm  <p>
|<t> E <a> parasegment 6 <of> embryonic central nervous system <p>
CC|Microexons 1 and 2 correspond to <fbsym>FBgn0003944==Ubx</fbsym> exons 2 and 3.
}

REF
{
REFM|FBrf0057417
|Artero et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001650	SYM 1 Ubx<up>+</up>RB	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 817
ID|FBtr0001650
SYM|Ubx<up>+</up>RB
SYN|class II
ASAL|<fbsym>FBal0068484==Ubx<up>+</up></fbsym>
DT|13 Sep 1999
|10 Mar 1998
ID2|FBtr0001651
ASGN|<fbsym>FBgn0003944==Ubx</fbsym>
SK|FBst0000491
|Dr[Mio]/TM6, <fbsym>FBal0068484==Ubx[+]</fbsym>
|Total=1

REFDSR
{
RDID|FBrf0057417
|Artero et al.
|1992
RNAT|mRNA
|mRNA
EXNSQ|1,3,4
BODP|An antisense oligonucleotide technique was used to study the distributions
| of the different <fbsym>FBgn0003944==Ubx</fbsym> splice variants. The <fbsym>FBgn0003944==Ubx</fbsym> splice variant containing
| the second microexon but not the first is strongly expressed in the embryonicCNS.
ASM|in situ
CVBODP|<t> E <a> embryonic central nervous system <p>
CC|Microexons 1 and 2 correspond to <fbsym>FBgn0003944==Ubx</fbsym> exons 2 and 3.
}

REF
{
REFM|FBrf0057417
|Artero et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001651	SYM 1 Ubx<up>+</up>RC	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 848
ID|FBtr0001651
SYM|Ubx<up>+</up>RC
SYN|class IV
ASAL|<fbsym>FBal0068484==Ubx<up>+</up></fbsym>
DT|13 Sep 1999
|10 Mar 1998
ID2|FBtr0001652
ASGN|<fbsym>FBgn0003944==Ubx</fbsym>
SK|FBst0000491
|Dr[Mio]/TM6, <fbsym>FBal0068484==Ubx[+]</fbsym>
|Total=1

REFDSR
{
RDID|FBrf0057417
|Artero et al.
|1992
RNAT|mRNA
|mRNA
EXNSQ|1,4
BODP|An antisense oligonucleotide technique was used to study the distributions
| of the different <fbsym>FBgn0003944==Ubx</fbsym> splice variants. The <fbsym>FBgn0003944==Ubx</fbsym> splice variant lacking
| both microexons was detected weakly in late embryos in the CNS in
| parasegment 6.
ASM|in situ
CVBODP|<t> E | late <a> parasegment 6 <of> embryonic central nervous system <p>
CC|The "class IV" splice variants don't contain either of the microexons (exons
| 2 and 3).
}

REF
{
REFM|FBrf0057417
|Artero et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001678	SYM 1 cac<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 15 Oct 2001	RESZ 844
ID|FBtr0001678
SYM|cac<up>+</up>R
SYN|Ca-alpha1A<up>+</up>R
|nbA<up>+</up>R
ASAL|<fbsym>FBal0126663==cac<up>+</up></fbsym>
DT|15 Oct 2001
|10 Mar 1998
ID2|FBtr0001679
ASGN|<fbsym>FBgn0005563==cac</fbsym>

REFDSR
{
RDID|FBrf0092684
|Smith et al.
|1996
RNAT|mRNA
BODP|The <fbsym>nbA</fbsym> transcript is expressed in the embryonic central nervous system.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic central nervous system <p>
}

REFDSR
{
RDID|FBrf0093184
|Peixoto et al.
|1997
RNAT|mRNA
CC|The <fbsym>nbA</fbsym> gene contains at least 34 exons. One of the exons is only six
| nucleotides long. Two regions are encoded by mutually exclusive alternate
| exons. Ten A to G differences between genomic and cDNA sequences may be the
| result of RNA editing.
}

REF
{
REFM|FBrf0092684
|Smith et al.
|1996
REFM|FBrf0093184
|Peixoto et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001692	SYM 1 &agr;-Adaptin<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 794
ID|FBtr0001692
SYM|&agr;-Adaptin<up>+</up>R
ASAL|<fbsym>FBal0075450==&agr;-Adaptin<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001693
ASGN|<fbsym>FBgn0015567==&agr;-Adaptin</fbsym>
ASPP|<fbsym>FBpp0001920==&agr;-Adaptin<up>+</up>P939</fbsym>

REFDSR
{
RDID|FBrf0093110
|Gonzalez-Gaitan and Jackle
|1997
RNAT|mRNA
BODP|<fbsym>&agr;-Adaptin</fbsym> expression is limited to the CNS and the garland cells in
| embryos. In larvae, it is expressed in developing imaginal discs.
CVBODP|in situ
|<t> E <a> embryonic ventral nervous system <p>
|<t> E <a> embryonic brain <p>
|<t> E <a> garland cell <p>
|<t> L <a> imaginal disc <p>
}

REFDSR
{
RDID|FBrf0098232
|Dornan et al.
|1997
RNAT|mRNA
}

REF
{
REFM|FBrf0093110
|Gonzalez-Gaitan and Jackle
|1997
REFM|FBrf0098232
|Dornan et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001740	SYM 1 Ecol\lacZ<up>otu.tsp</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1082
ID|FBtr0001740
SYM|Ecol\lacZ<up>otu.tsp</up>RA
SYN|lacZ<up>otu.tsp</up>RA
ASAL|<fbsym>FBal0041811==Ecol\lacZ<up>otu.tsp</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001741
ASTP|<fbsym>FBtp0001342==P{otu-lacZ.C}</fbsym>
|<fbsym>FBmc0001321==pP{otu-lacZ.C}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056085
|Comer et al.
|1992
RNAT|mRNA
BODP|Intense <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter gene expression is observed in nurse cells and
| oocytes but not in the surrounding follicle cells. Staining is also
| observed in the anterior tip of the germarium reflecting expression at very
| early stages of oogenesis. In males, staining is observed at the anterior
| tip of the testes in cells that are thought to be germ line stem cells or
| developing cysts of primary spermatocytes.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> O | early <a>  <p>
|<t> O,A <a> nurse cell <p>
|<t> O,A <a> oocyte <p>
|<t> A,S <a> testis | anterior <p>
ASCRGN|<fbsym>FBgn0003023==otu</fbsym>
}

REF
{
REFM|FBrf0056085
|Comer et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001773	SYM 1 Ecol\lacZ<up>Ubx.RPhz</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Aug 2002	RESZ 1402
ID|FBtr0001773
SYM|Ecol\lacZ<up>Ubx.RPhz</up>RA
SYN|Ecol\lacZ<up>Ubx.RP</up>RA
|lacZ<up>Ubx.RP</up>RA
ASAL|<fbsym>FBal0047569==Ecol\lacZ<up>Ubx.RPhz</up></fbsym>
DT|28 Aug 2002
|10 Mar 1998
ID2|FBtr0001774
ASTP|<fbsym>FBtp0005508==P{RPhz}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0059253
|Thuringer and Bienz
|1993
RNAT|mRNA
AGT|<fbsym>FBal0003074==dpp<up>s4</up></fbsym>
|<fbsym>FBal0018509==wg<up>l-17</up></fbsym>
|<fbsym>FBal0031073==dpp<up>hs.PT</up></fbsym>
|<fbsym>FBal0036008==wg<up>hs.PN</up></fbsym>
BODP|The "RP" fragment of <fbsym>FBgn0003944==Ubx</fbsym> directs <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the visceral
| mesoderm of parasegments 3 and 7. This expression is abolished in mutants
| of <fbsym>FBgn0004009==wg</fbsym> and <fbsym>FBgn0000490==dpp</fbsym>. Ubiquitous <fbsym>FBgn0004009==wg</fbsym> expression leads to the expansion of the
| parasegment 7 domain of expression anteriorly into parasegment 6.
| Parasegment 3 expression is expanded slightly posteriorly. Ubiquitous <fbsym>FBgn0000490==dpp</fbsym>
| expression leads to the expansion of the domain of expression posteriorly
| into parasegments 8 and 9.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E <a> parasegment 7 <of> visceral mesoderm <p>
|<t> E <a> parasegment 3 <of> visceral mesoderm <p>
}

REF
{
REFM|FBrf0059253
|Thuringer and Bienz
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001794	SYM 1 how<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 896
ID|FBtr0001794
SYM|how<up>+</up>R
ASAL|<fbsym>FBal0076686==how<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001795
ASGN|<fbsym>FBgn0017397==how</fbsym>
ASPP|<fbsym>FBpp0001895==how<up>+</up>P404</fbsym>

REFDSR
{
RDID|FBrf0098520
|Fyrberg et al.
|1997
RNAT|mRNA
EXNSQ|1-8
BODP|<fbsym>FBgn0017397==how</fbsym> transcripts are first detected in stage 6 in the presumptive mesoderm
| and subsequently in the mesoderm. In later embryos they are detected in
| cells forming all somatic and visceral muscles and in heart cells.
ASM|in situ
CVBODP|in situ
|<t> E | stage 6 <a> mesoderm anlagen <p>
|<t> E | stage 6 <a> ventral furrow <p>
|<t> E <a> mesoderm <p>
|<t> E | late <a> larval somatic muscle <p>
|<t> E | late <a> larval visceral muscle <p>
|<t> E | late <a> pharyngeal muscle <p>
|<t> E | late <a> embryonic/larval dorsal vessel <p>
}

REF
{
REFM|FBrf0098520
|Fyrberg et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001812	SYM 1 Cam<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Nov 1999	RESZ 1160
ID|FBtr0001812
SYM|Cam<up>+</up>R
SYN|Cam<up>+</up>R
|CaMKII<up>+</up>R
ASAL|<fbsym>FBal0066457==Cam<up>+</up></fbsym>
DT|5 Nov 1999
|10 Mar 1998
ID2|FBtr0001813
ASGN|<fbsym>FBgn0000253==Cam</fbsym>
ASPP|<fbsym>FBpp0001929==Cam<up>+</up>P148</fbsym>

REFDSR
{
RDID|FBrf0046873
|Smith et al.
|1987
RNAT|mRNA
EXNSQ|1-4
}

REFDSR
{
RDID|FBrf0058788
|Ohsako et al.
|1993
RNAT|mRNA
BODP|A low basal level of <fbsym>FBgn0000253==Cam</fbsym> transcripts is detected throughout the early
| embryo. High levels of expression are apparent in the anterior and
| posterior midgut during germ band extension and retraction. Expression in
| the CNS is first observed during germ band shortening and greatly increases
| after germ band retraction. Expression is also observed in the PNS.
ASM|in situ
CVBODP|<t> E | mid <a> anterior embryonic/larval midgut <p>
|<t> E | mid <a> posterior embryonic/larval midgut <p>
|<t> E | mid-late <a> embryonic central nervous system | presumptive <p>
|<t> E | mid-late <a> peripheral nervous system <p>
}

REF
{
REFM|FBrf0046873
|Smith et al.
|1987
REFM|FBrf0049550
|Sanchez-Herrero and Akam
|1989
REFM|FBrf0058788
|Ohsako et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001868	SYM 1 Abl<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 31 Dec 1998	RESZ 1252
ID|FBtr0001868
SYM|Abl<up>+</up>R
SYN|src7
ASAL|<fbsym>FBal0066332==Abl<up>+</up></fbsym>
DT|31 Dec 1998
|10 Mar 1998
ID2|FBtr0001869
ASGN|<fbsym>FBgn0000017==Abl</fbsym>

REFDSR
{
RDID|FBrf0043367
|Wadsworth et al.
|1985
RNAT|mRNA
BODP|Highest levels of <fbsym>FBgn0000017==Abl</fbsym> transcript were found in 0.5 hr embryos, and
| declined thereafter. High levels are also detected in metamorphosis, in
| adult females, and in the ovary.
ASM|dot blot
CVBODP|dot blot
|<t> E <a>  <p>
|<t> PP-P <a>  <p>
|<t> A | female <a>  <p>
|<t> O,A | female <a> ovary <p>
CC|<fbsym>FBgn0000017==Abl</fbsym> transcripts are stated as being 5 and 3.3 kb, although a previous
| report (<fbsym>FBrf0041478</fbsym>) cited by the authors discusses only a
| 6.2 kb transcript.
}

REFDSR
{
RDID|FBrf0048859
|Segev et al.
|1988
RNAT|mRNA
VPR|experimental
ASM|northern blot
CC|The sequence of the <fbsym>FBgn0000017==Abl</fbsym> promoter region was determined and the
| transcription start sites were mapped. The activity of the <fbsym>FBgn0000017==Abl</fbsym> promoter
| linked to the bacterial CAT gene was demonstrated in S2 cells, in
| unfertilized eggs, and in growing embryos.
}

REF
{
REFM|FBrf0043367
|Wadsworth et al.
|1985
REFM|FBrf0048859
|Segev et al.
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001888	SYM 1 Ecol\lacZ<up>ci-Dplac</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 1805
ID|FBtr0001888
SYM|Ecol\lacZ<up>ci-Dplac</up>RA
SYN|lacZ<up>ci-Dplac</up>RA
ASAL|<fbsym>FBal0040983==Ecol\lacZ<up>ci-Dplac</up></fbsym>
DT|21 Nov 2000
|10 Mar 1998
ID2|FBtr0001889
ASTI|<fbsym>FBti0002268==P{lacW}ci<up>Dplac</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>
SK|FBst0006303
|y[1] w[*]; P{w[+mC]=lacW}ci[Dplac]
|Total=1

REFDSR
{
RDID|FBrf0051822
|Eaton and Kornberg
|1990
RNAT|mRNA
AGT|<fbsym>FBal0003716==en<up>1</up></fbsym>
|<fbsym>en<up>X31</up></fbsym>
|<fbsym>FBal0003774==en<up>59</up></fbsym>
BODP|Enhancer trap staining occurs in wide, segmentally repeated stripes in
| embryos and in imaginal discs. In both embryos and imaginal discs,
| expression was found to be in the anterior compartments and precisely
| complements <fbsym>FBgn0000577==en</fbsym> expression. In engrailed mutants, <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression
| is derepressed in the posterior compartments in embryos and imaginal discs,
| suggesting that <fbsym>FBgn0004859==ci</fbsym> expression is normally repressed by <fbsym>FBgn0000577==en</fbsym> in these cells.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E <a>  <p> segment polarity
|<t> L <a> imaginal disc | anterior <p>
ASCRGN|<fbsym>FBgn0004859==ci</fbsym>
}

REFDSR
{
RDID|FBrf0055852
|Blair
|1992
RNAT|mRNA
BODP|In pupal wing, expression in anterior compartment not uniform: slightly
| fainter in cells midway between L3 and L4 down to the AP lineage boundary.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> dorsal mesothoracic disc | anterior compartment <p>
|<t> P <a> wing | anterior compartment <p>
ASCRGN|<fbsym>FBgn0004859==ci</fbsym>
}

REF
{
REFM|FBrf0051822
|Eaton and Kornberg
|1990
REFM|FBrf0055852
|Blair
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001937	SYM 1 Ecol\lacZ<up>ninaA.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 619
ID|FBtr0001937
SYM|Ecol\lacZ<up>ninaA.P</up>RA
SYN|lacZ<up>ninaA.P</up>RA
ASAL|<fbsym>FBal0041792==Ecol\lacZ<up>ninaA.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0001938
ASTP|<fbsym>FBtp0004420==P{lacZ<up>ninaA.P</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053356
|Stamnes et al.
|1991
RNAT|mRNA
BODP|Reporter gene expression is seen in all photoreceptors (R1-R8), and in the
| ocellar photoreceptors.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> A <a> photoreceptor cell R1..8 <p>
|<t> A <a> ocellus <p>
}

REF
{
REFM|FBrf0053356
|Stamnes et al.
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0001993	SYM 1 pcx<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 364
ID|FBtr0001993
SYM|pcx<up>+</up>RA
ASAL|<fbsym>FBal0070872==pcx<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0001994
ASGN|<fbsym>FBgn0003048==pcx</fbsym>

REFDSR
{
RDID|FBrf0042056
|Haenlin et al.
|1985
RNAT|mRNA
CC|Results suggest that the <fbsym>FBgn0003048==pcx</fbsym> gene produces a 12kb transcript.
}

REF
{
REFM|FBrf0042056
|Haenlin et al.
|1985
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002001	SYM 1 tsh<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 2303
ID|FBtr0002001
SYM|tsh<up>+</up>R
ASAL|<fbsym>FBal0105295==tsh<up>+</up></fbsym>
DT|30 May 2000
|10 Mar 1998
ID2|FBtr0002002
ASGN|<fbsym>FBgn0003866==tsh</fbsym>

REFDSR
{
RDID|FBrf0055836
|Roder et al.
|1992
RNAT|mRNA
AGT|<fbsym>FBal0015280==Scr<up>4</up></fbsym>
|<fbsym>FBal0002390==Dfd<up>rv1</up></fbsym>
|<fbsym>FBal0011517==lab<up>4</up></fbsym>
|<fbsym>FBal0000566==Antp<up>25</up></fbsym>
|<fbsym>FBal0017483==Ubx<up>9.22</up></fbsym>
|<fbsym>FBal0015124==salm<up>1</up></fbsym>
|<fbsym>FBal0028955==Antp<up>hs.PHTA</up></fbsym>
|<fbsym>FBal0034152==Ubx<up>hs.P</up></fbsym>
|<fbsym>FBab0002632==Df(3R)P9</fbsym>
BODP|<fbsym>FBgn0003866==tsh</fbsym> transcripts are first transcribed in blastoderm embryos and are
| expressed in all trunk segments. <fbsym>FBgn0003866==tsh</fbsym> is expressed in a parasegmental
| register in germ band extended embryos from parasegment 3 through 13.
| During germ band retraction, expression becomes segmental and is restricted
| to the thorax and A1-A8 in the epidermis. At this time, expression in the
| CNS initiates in the posterior part of the labial segment and is therefore
| parasegmental. The expression of <fbsym>FBgn0003866==tsh</fbsym> was studied in various homeotic
| mutants. No deviation from the wild type pattern was seen before the fully
| germ band extended stage in any mutant. <fbsym>FBgn0003866==tsh</fbsym> expression is unaffected in
| <fbsym>FBgn0003339==Scr</fbsym>, <fbsym>FBgn0002522==lab</fbsym>, and <fbsym>FBgn0000439==Dfd</fbsym> mutants. It is altered in segment specific patterns
| in <fbsym>FBgn0000095==Antp</fbsym>, <fbsym>FBgn0003944==Ubx</fbsym>, <fbsym>FBgn0000014==abd-A</fbsym>, and <fbsym>FBgn0000015==Abd-B</fbsym> mutants or mutant combinations.
| <fbsym>FBgn0003866==tsh</fbsym> transcripts are ectopically expressed in particular domains of the
| head in heat shocked embryos containing <fbsym>FBal0028955==Antp[hs.PHTA]</fbsym> or <fbsym>FBal0034152==Ubx[hs.P]</fbsym>.
ASM|in situ
CVBODP|<t> E | blastoderm <a> parasegment 3..13  <p>
|<t> E | contracted germ band stage <a> mesothoracic segment <p>
|<t> E | contracted germ band <a> abdominal segment 1..8  <p>
|<t> E | contracted germ band stage <a> parasegment 2..13 <of> embryonic central nervous system <p>
}

REF
{
REFM|FBrf0055836
|Roder et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002005	SYM 1 Ubx<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 811
ID|FBtr0002005
SYM|Ubx<up>+</up>R
ASAL|<fbsym>FBal0068484==Ubx<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002006
ASGN|<fbsym>FBgn0003944==Ubx</fbsym>
SK|FBst0000491
|Dr[Mio]/TM6, <fbsym>FBal0068484==Ubx[+]</fbsym>
|Total=1

REFDSR
{
RDID|FBrf0053386
|Fasano et al.
|1991
RNAT|mRNA
AGT|<fbsym>tsh<up>8</up>/Df(2L)TW161</fbsym>
BODP|The distribution of transcripts appears to be unaffected by mutations in the
| <fbsym>FBgn0003866==tsh</fbsym> gene.
ASM|in situ
}

REFDSR
{
RDID|FBrf0055836
|Roder et al.
|1992
RNAT|mRNA
AGT|<fbsym>FBal0032945==tsh<up>8</up></fbsym>
BODP|The spatial pattern of <fbsym>FBgn0003944==Ubx</fbsym> transcripts appears as wild type in <fbsym>FBgn0003866==tsh</fbsym> mutants.
ASM|in situ
}

REF
{
REFM|FBrf0053386
|Fasano et al.
|1991
REFM|FBrf0055836
|Roder et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002007	SYM 1 Abd-B<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 509
ID|FBtr0002007
SYM|Abd-B<up>+</up>R
ASAL|<fbsym>FBal0066331==Abd-B<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002008
ASGN|<fbsym>FBgn0000015==Abd-B</fbsym>

REFDSR
{
RDID|FBrf0055836
|Roder et al.
|1992
RNAT|mRNA
AGT|<fbsym>FBal0032945==tsh<up>8</up></fbsym>
BODP|The spatial pattern of <fbsym>FBgn0000014==abd-A</fbsym> and <fbsym>FBgn0000015==Abd-B</fbsym> transcripts appears as wild type
| in <fbsym>FBgn0003866==tsh</fbsym> mutants.
ASM|in situ
}

REF
{
REFM|FBrf0055836
|Roder et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002018	SYM 1 RanGap<up>+</up>RA	TRL 1 2.0	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 2 May 2005	RESZ 995
ID|FBtr0002018
SYM|RanGap<up>+</up>RA
SYN|Hs2st-RA
|Sd<up>+</up>R2.0
|Sd<up>+</up>RA
ASAL|<fbsym>FBal0157561==RanGap<up>+</up></fbsym>
DT|2 May 2005
|10 Mar 1998
ID2|FBtr0002019
ASGN|<fbsym>FBgn0003346==RanGap</fbsym>
ASPP|<fbsym>FBpp0002736==RanGap-P1</fbsym>
|<fbsym>FBpp0089692==Hs2st-XP</fbsym>

REFDSR
{
RDID|FBrf0054130
|Powers and Ganetzky
|1991
RNAT|mRNA
TRL|2.0 (northern blot)
BODP|<fbsym>Sd</fbsym> transcripts are expressed only in pupal and adult stages.
ASM|northern blot
CVBODP|<t> P <a>  <p>
|<t> A <a>  <p>
CC|A broad band of hybridization at 2kb is actually a collection of <fbsym>Sd</fbsym>
| transcripts of similar size. All members of the 2kb class are seen in both
| SD and SD[+] strains. cDNAs encoding one class of the 2kb RNA were isolated
| from both SD and SD+ strains and were shown to be essentially identical.
}

REFDSR
{
RDID|FBrf0107886
|Merrill et al.
|1999
RNAT|mRNA
}

REF
{
REFM|FBrf0054130
|Powers and Ganetzky
|1991
REFM|FBrf0107886
|Merrill et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002152	SYM 1 nonA<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 7 Apr 1998	RESZ 1717
ID|FBtr0002152
SYM|nonA<up>+</up>R
ASAL|<fbsym>FBal0070828==nonA<up>+</up></fbsym>
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002153
ASGN|<fbsym>FBgn0004227==nonA</fbsym>
ASPP|<fbsym>FBpp0000911==nonA<up>+</up>P698</fbsym>
|<fbsym>FBpp0000912==nonA<up>+</up>P700</fbsym>

REFDSR
{
RDID|FBrf0052687
|Jones and Rubin
|1990
RNAT|mRNA
EXNSQ|1-3,4b
RNAT|mRNA
EXNSQ|1-3,4a,5
CC|cDNAs representing two different splice classes of <fbsym>FBgn0004227==nonA</fbsym> transcripts were
| identified. The cDNA of "form I" encodes a protein of 700aa. The 5' end was
| not located. The transcripts specified by the cDNAs differ in the removal
| of a fourth intron which leads to the translation of two different
| proteins. The correspondence between individual cDNAs and transcripts was
| not specified.
|cDNAs representing two different splice classes of <fbsym>FBgn0004227==nonA</fbsym> transcripts were
| identified. The cDNA of "form II" is presumed to encode a protein of 698aa.
| The transcripts specified by the cDNAs differ in the removal of a fourth
| intron which leads to the translation of two different proteins. The
| correspondence between individual cDNAs and transcripts was not specified.
| Form I and form II transcripts were assumed by authors to ovelap in exons
| 1-3 in the protein coding region although this was not explicitly
| demonstrated with cDNA clones (The form II cDNA starts in the middle of
| exon 3).
}

REFDSR
{
RDID|FBrf0056578
|Rendahl et al.
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0004227==nonA</fbsym> transcripts were found to be ubiquitously distributed in the embryo.
ASM|in situ
CVBODP|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0052687
|Jones and Rubin
|1990
REFM|FBrf0056578
|Rendahl et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002153	SYM 1 dnc<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 21 Apr 1999	RESZ 1450
ID|FBtr0002153
SYM|dnc<up>+</up>R
ASAL|<fbsym>FBal0068838==dnc<up>+</up></fbsym>
DT|21 Apr 1999
|10 Mar 1998
ID2|FBtr0002154
ASGN|<fbsym>FBgn0000479==dnc</fbsym>
ASPP|<fbsym>FBpp0000372==dnc<up>+</up>P362</fbsym>

REFDSR
{
RDID|FBrf0054549
|Qiu et al.
|1991
RNAT|mRNA
CC|The complex <fbsym>FBgn0000479==dnc</fbsym> locus covers a region of about 148 kb. Ten different
| transcripts are detected by Northern analysis. There is also sequence
| heterogeneity in the 5' and 3' untranslated regions of <fbsym>FBgn0000479==dnc</fbsym> transcripts.
| Three initiation sites were identified by S1 protection and primer
| extension analysis. The 9.6/9.5 kb transcripts possess 4.8 kb-long
| untranslated regions. The cDNAs isolated have been classified into 6 classes.
}

REFDSR
{
RDID|FBrf0054808
|Nighorn et al.
|1991
RNAT|mRNA
BODP|In situ hybridization experiments demonstrate that the highest level of
| <fbsym>FBgn0000479==dnc</fbsym> RNA is in the perikarya of the mushroom body. The remainder of the
| cortex stains at lower levels and no staining is seen in neuropil structures.
ASM|in situ
CVBODP|<t> A <a> corpora pedunculata <p>
|<t> A <a> perikaryon <p>
}

REFDSR
{
RDID|FBrf0058521
|Qiu and Davis
|1993
RNAT|mRNA
CC|<fbsym>FBgn0000479==dnc</fbsym> transcripts were classified according to their transcription start sites.
}

REF
{
REFM|FBrf0054549
|Qiu et al.
|1991
REFM|FBrf0054808
|Nighorn et al.
|1991
REFM|FBrf0058521
|Qiu and Davis
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002205	SYM 1 BicD<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 22 Dec 2000	RESZ 1084
ID|FBtr0002205
SYM|BicD<up>+</up>R
ASAL|<fbsym>FBal0066424==BicD<up>+</up></fbsym>
DT|22 Dec 2000
|10 Mar 1998
ID2|FBtr0002206
ASGN|<fbsym>FBgn0000183==BicD</fbsym>
ASPP|<fbsym>FBpp0000152==BicD-P1</fbsym>

REFDSR
{
RDID|FBrf0049384
|Wharton and Struhl
|1989
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0053399
|Suter and Steward
|1991
RNAT|mRNA
BODP|<fbsym>FBgn0000183==BicD</fbsym> is the earliest known marker for the oocyte. Transcripts are already
| detected in germarium region 1 which contains the 16 cystocyte cluster.
| Transcripts initially are not localized to a particular cystocyte but
| progressively accumulatein in a single cell, the oocyte. In <fbsym>FBgn0000562==egl</fbsym> mutants,
| <fbsym>FBgn0000183==BicD</fbsym> RNA localizes to the pro-oocyte in germarium region 2A but the level
| drops to the nurse cell level by germarium stage 3.
ASM|in situ
CVBODP|<t> O,A | female <a> ovary  <p>
|<t> O,A <a> germarium region 1..3 <p>
|<t> O,A <a> oocyte <p>
|<t> O,A <a> cystocyte <p>
}

REF
{
REFM|FBrf0049384
|Wharton and Struhl
|1989
REFM|FBrf0053399
|Suter and Steward
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002299	SYM 1 Ecol\lacZ<up>Adh.LsC:EBP-S</up>RA	TRL 1 -	ASM 1 RNase protection, primer extension, SI etc.	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 579
ID|FBtr0002299
SYM|Ecol\lacZ<up>Adh.LsC:EBP-S</up>RA
SYN|Ecol\lacZ<up>Adh.LsC/EBP-S</up>RA
|lacZ<up>Adh.LsC/EBP-S</up>RA
ASAL|<fbsym>FBal0040777==Ecol\lacZ<up>Adh.LsC:EBP-S</up></fbsym>
DT|30 May 2000
|10 Mar 1998
ID2|FBtr0002300
ASTP|<fbsym>FBtp0003985==P{lacZ<up>Adh.LsC/EBP-S</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056138
|Falb and Maniatis
|1992
RNAT|mRNA
BODP|No <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression is observed in adults.
ASM|RNase protection, primer extension, SI etc.
}

REF
{
REFM|FBrf0056138
|Falb and Maniatis
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002300	SYM 1 Ecol\lacZ<up>Adh.LsC:EBP-W</up>RA	TRL 1 -	ASM 1 RNase protection, primer extension, SI etc.	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 631
ID|FBtr0002300
SYM|Ecol\lacZ<up>Adh.LsC:EBP-W</up>RA
SYN|Ecol\lacZ<up>Adh.LsC/EBP-W</up>RA
|lacZ<up>Adh.LsC/EBP-W</up>RA
ASAL|<fbsym>FBal0040778==Ecol\lacZ<up>Adh.LsC:EBP-W</up></fbsym>
DT|30 May 2000
|10 Mar 1998
ID2|FBtr0002301
ASTP|<fbsym>FBtp0003986==P{lacZ<up>Adh.LsC/EBP-W</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056138
|Falb and Maniatis
|1992
RNAT|mRNA
BODP|Transcripts are at the same level as in the <fbsym>FBal0040773==Ecol\lacZ[Adh.AAE]</fbsym> transformant.
ASM|RNase protection, primer extension, SI etc.
CVBODP|<t> A <a>  <p>
}

REF
{
REFM|FBrf0056138
|Falb and Maniatis
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002302	SYM 1 Ecol\lacZ<up>Adh.AAE</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 455
ID|FBtr0002302
SYM|Ecol\lacZ<up>Adh.AAE</up>RA
SYN|lacZ<up>Adh.AAE</up>RA
ASAL|<fbsym>FBal0040773==Ecol\lacZ<up>Adh.AAE</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002303
ASTP|<fbsym>FBtp0003981==P{lacZ<up>Adh.AAE</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056138
|Falb and Maniatis
|1992
RNAT|mRNA
BODP|Transcripts are observed in adults.
CVBODP|<t> A <a>  <p>
}

REF
{
REFM|FBrf0056138
|Falb and Maniatis
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002368	SYM 1 CAT<up>S/B(+)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 375
ID|FBtr0002368
SYM|CAT<up>S/B(+)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002369

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in Kc cells in the presence of 20-hydroxyecdysone.
| Repressed in the absence of ecdysone.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002369	SYM 1 CAT<up>S/B(-)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 375
ID|FBtr0002369
SYM|CAT<up>S/B(-)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002370

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in Kc cells in the presence of 20-hydroxyecdysone.
| Repressed in the absence of ecdysone.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002370	SYM 1 CAT<up>S/D(+)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 337
ID|FBtr0002370
SYM|CAT<up>S/D(+)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002371

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in untreated Kc cells (no added 20-hydroxyecdysone).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002371	SYM 1 CAT<up>S/D(-)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 337
ID|FBtr0002371
SYM|CAT<up>S/D(-)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002372

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in untreated Kc cells (no added 20-hydroxyecdysone).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002372	SYM 1 CAT<up>D/B(-)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 337
ID|FBtr0002372
SYM|CAT<up>D/B(-)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002373

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in untreated Kc cells (no added 20-hydroxyecdysone).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002373	SYM 1 CAT<up>S/Ha(+)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 338
ID|FBtr0002373
SYM|CAT<up>S/Ha(+)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002374

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in untreated Kc cells (no added 20-hydroxyecdysone).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002374	SYM 1 CAT<up>H/A(D+)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 338
ID|FBtr0002374
SYM|CAT<up>H/A(D+)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002375

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in untreated Kc cells (no added 20-hydroxyecdysone).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002375	SYM 1 CAT<up>Ha/H(+)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 376
ID|FBtr0002375
SYM|CAT<up>Ha/H(+)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002376

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in Kc cells in the presence of 20-hydroxyecdysone.
| Repressed in the absence of ecdysone.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002376	SYM 1 CAT<up>Ha/B(+)</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 7 Apr 1998	RESZ 376
ID|FBtr0002376
SYM|CAT<up>Ha/B(+)</up>RA
DT|7 Apr 1998
|10 Mar 1998
ID2|FBtr0002377

REFDSR
{
RDID|FBrf0058671
|Tourmente et al.
|1993
RNAT|mRNA
BODP|Expressed at high levels in Kc cells in the presence of 20-hydroxyecdysone.
| Repressed in the absence of ecdysone.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0058671
|Tourmente et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002385	SYM 1 Ecol\lacZ<up>Mhc.PH</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 29 May 2001	RESZ 1054
ID|FBtr0002385
SYM|Ecol\lacZ<up>Mhc.PH</up>RA
SYN|lacZ<up>Mhc.P</up>RA
ASAL|<fbsym>FBal0041756==Ecol\lacZ<up>Mhc.PH</up></fbsym>
DT|29 May 2001
|10 Mar 1998
ID2|FBtr0002386
ASTP|<fbsym>FBtp0004413==P{Mhc-lacZ.H}</fbsym>
ASGN|<fbsym>FBgn0014445==Scer\GAL4</fbsym>
|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0059320
|Drysdale et al.
|1993
RNAT|mRNA
BODP|<fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression , begins at 10 hours of development and occurs in the
| muscles as they form (FBrf 66429).
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | >=10 hr <a> larval muscle system <p>
}

REFDSR
{
RDID|FBrf0098339
|Roy and VijayRaghavan
|1997
RNAT|mRNA
BODP|Expressed in all differentiated muscle fibers.
MRK|muscle system
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> embryonic/larval muscle system <p>
|<t> P-A <a> adult muscle system <p>
}

REF
{
REFM|FBrf0059320
|Drysdale et al.
|1993
REFM|FBrf0098339
|Roy and VijayRaghavan
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002414	SYM 1 Ecol\lacZ<up>Kr.BoE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jun 1999	RESZ 707
ID|FBtr0002414
SYM|Ecol\lacZ<up>Kr.BoE</up>RA
SYN|lacZ<up>BoKrR</up>RA
ASAL|<fbsym>FBal0041666==Ecol\lacZ<up>Kr.BoE</up></fbsym>
DT|30 Jun 1999
|10 Mar 1998
ID2|FBtr0002415
ASTP|<fbsym>FBtp0004382==P{Kr-lacZ.BS23}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057356
|Schmucker et al.
|1992
RNAT|mRNA
BODP|Reporter gene expression is observed in the developing Bolwig's organs of
| embryos. Expression first occurs in a single pair of neurons.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E <a> Bolwig's organ <p>
|<t> E <a> Bolwig's nerve <p>
CC|This marker construct was used to follow axonal processes.
}

REF
{
REFM|FBrf0057356
|Schmucker et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002415	SYM 1 CycA<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 23 Apr 2001	RESZ 2022
ID|FBtr0002415
SYM|CycA<up>+</up>R
ASAL|<fbsym>FBal0066524==CycA<up>+</up></fbsym>
DT|23 Apr 2001
|10 Mar 1998
ID2|FBtr0002416
ASGN|<fbsym>FBgn0000404==CycA</fbsym>

REFDSR
{
RDID|FBrf0050634
|Whitfield et al.
|1989
RNAT|mRNA
BODP|<fbsym>FBgn0000404==CycA</fbsym> transcripts are detected at all stages of development. Three <fbsym>FBgn0000404==CycA</fbsym>
| transcripts are detected in pupae, one of which persists in adults. <fbsym>FBgn0000404==CycA</fbsym>
| transcripts are detected in embryos by in situ hybridization. Maternal mRNA
| is initially distributed uniformly throughout the embryo but redistributes
| toward the cortex during cycles 8 and 9. The abundance of <fbsym>FBgn0000404==CycA</fbsym>
| transcripts falls dramatically after cellularization. Later, zygotic
| transcripts appear throughout the embryo. In larvae, transcripts are
| detectedin the periphery of the three brain lobes and at lower levels in
| the imaginal discs.
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> E-A <a>  <p>
|in situ
|<t> E | early <a>  <p> ubiquitous
|<t> L <a> larval brain <p>
|<t> L <a> imaginal disc <p>
}

REFDSR
{
RDID|FBrf0055918
|Dalby and Glover
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0000404==CycA</fbsym> transcripts are detected in RNA from adult females.  They are present
| at greatly reduced levels in progeny of a dysgenic cross which lack ovaries
| and testes implying that they are germline specific. Transcripts are
| detected in the posterior germarium by in situ hybridization and then again
| later in oogenesis stages 9-10 in nurse cells. ! GAT21.  Expression pattern
| ascribed to              :
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> A | female <a>  <p>
|<t> A | female <a> ovary <p>
|in situ
|<t> O,A <a> germarium <p>
|<t> O,A | stage 9,10 <a> nurse cell <p>
}

REFDSR
{
RDID|FBrf0056094
|Takahisa et al.
|1992
RNAT|mRNA
VPR|experimental
EXNSQ|1-7
}

REF
{
REFM|FBrf0050634
|Whitfield et al.
|1989
REFM|FBrf0055918
|Dalby and Glover
|1992
REFM|FBrf0056094
|Takahisa et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002419	SYM 1 Ecol\lacZ<up>ftz.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 819
ID|FBtr0002419
SYM|Ecol\lacZ<up>ftz.P</up>RA
SYN|lacZ<up>ftz.P</up>RA
ASAL|<fbsym>FBal0041449==Ecol\lacZ<up>ftz.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002420
ASTP|<fbsym>FBtp0000956==P{ftz-lacZ.w<up>+</up>}</fbsym>
|<fbsym>FBtp0001580==P{ftz-lacZ-un1}</fbsym>
|<fbsym>FBtp0001582==P{ftz-lacZ.ry<up>+</up>}</fbsym>
ASGN|<fbsym>FBgn0014445==Scer\GAL4</fbsym>
|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055900
|Doe
|1992
RNAT|mRNA
BODP|The <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter protein is expressed with a <fbsym>FBgn0001077==ftz</fbsym> pattern in a
| specified subset of neuroblasts in embryonic stages 10 and 11. (see also
| FBrf 42045)
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 10 <a> neuroblast MP2 <p>
}

REF
{
REFM|FBrf0055900
|Doe
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002453	SYM 1 Ecol\lacZ<up>twi.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 920
ID|FBtr0002453
SYM|Ecol\lacZ<up>twi.P</up>RA
SYN|lacZ<up>twi.P</up>RA
ASAL|<fbsym>FBal0042094==Ecol\lacZ<up>twi.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002454
ASTP|<fbsym>FBtp0011926==P{twi-lacZ.P}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Strong expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> in the ventral-most 20 cells of the embryo.
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
AGT|<fbsym>In embryos at cellular blastoderm, expressed at high levels in the</fbsym>
|<fbsym>ventralmost 20 cells, with sharp boundaries at lateral borders.</fbsym>
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | cellular blastoderm <a>  <p> ventral
ASCRGN|<fbsym>FBgn0003900==twi</fbsym>
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002454	SYM 1 Ecol\lacZ<up>twi.PE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1018
ID|FBtr0002454
SYM|Ecol\lacZ<up>twi.PE</up>RA
SYN|lacZ<up>twi.PE</up>RA
ASAL|<fbsym>FBal0042096==Ecol\lacZ<up>twi.PE</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002455
ASTP|<fbsym>FBtp0011925==P{twi-lacZ.PE}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Weak expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> spanning the 12-14 ventral-most cells of the embryo.
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
BODP|In embryos at cellular blastoderm, expressed at low to moderate levels in
| the ventralmost 12-14 cells, with fuzzy boundaries at lateral borders.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | cellular blastoderm <a>  <p> ventral
CC|Compared to full-length <fbsym>FBgn0003900==twi</fbsym> promoter, level of expression is reduced and
| domain of expression is narrower.
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002457	SYM 1 Ecol\lacZ<up>twi.PEe</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 548
ID|FBtr0002457
SYM|Ecol\lacZ<up>twi.PEe</up>RA
SYN|lacZ<up>twi.PEe</up>RA
ASAL|<fbsym>FBal0042101==Ecol\lacZ<up>twi.PEe</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002458
ASTP|<fbsym>FBtp0004551==P{twi-lacZ.PEe}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Expansion of expression domain to the 20 ventral-most cells of the embryo
| (compare to lacZ[twi.PE]).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002459	SYM 1 Ecol\lacZ<up>twi.PEe'</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 394
ID|FBtr0002459
SYM|Ecol\lacZ<up>twi.PEe'</up>RA
SYN|lacZ<up>twi.PEe'</up>RA
ASAL|<fbsym>FBal0042097==Ecol\lacZ<up>twi.PEe'</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002460
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002460	SYM 1 Ecol\lacZ<up>twi.PE-Et</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 507
ID|FBtr0002460
SYM|Ecol\lacZ<up>twi.PE-Et</up>RA
SYN|lacZ<up>twi.PE-Et</up>RA
ASAL|<fbsym>FBal0042095==Ecol\lacZ<up>twi.PE-Et</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002461
ASTP|<fbsym>FBtp0002616==P{twi-lacZ.PE-Et}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Expressed in the ventral-most 20 cells of the embryo.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002461	SYM 1 Ecol\lacZ<up>twi.PEe-Et</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 721
ID|FBtr0002461
SYM|Ecol\lacZ<up>twi.PEe-Et</up>RA
SYN|lacZ<up>twi.PEe-Et</up>RA
ASAL|<fbsym>FBal0042100==Ecol\lacZ<up>twi.PEe-Et</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002462
ASTP|<fbsym>FBtp0002619==P{twi-lacZ.PEe-6ET}</fbsym>
|<fbsym>FBtp0004550==P{twi-lacZ.PEe-6Et}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Expressed extremely broadly, over 28 to 30 cells in the ventral and lateral
| region of the embryo. This domain includes the presumptive mesoderm,
| mesectoderm, and at least the ventral half of the neuroectoderm.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002463	SYM 1 Ecol\lacZ<up>twi.PEe-Em</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 589
ID|FBtr0002463
SYM|Ecol\lacZ<up>twi.PEe-Em</up>RA
SYN|lacZ<up>twi.PEe-Em</up>RA
ASAL|<fbsym>FBal0042099==Ecol\lacZ<up>twi.PEe-Em</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002464
ASTP|<fbsym>FBtp0002621==P{twi-lacZ.PEe-Em}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|As for <fbsym>FBal0042101==Ecol\lacZ[twi.PEe]</fbsym>, i.e. the expression domain covers the
| ventral-most 20 cells of the embryo.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002464	SYM 1 Ecol\lacZ<up>twi.PEm-Et.PEe</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 571
ID|FBtr0002464
SYM|Ecol\lacZ<up>twi.PEm-Et.PEe</up>RA
SYN|lacZ<up>twi.PEm-Et.PEe</up>RA
ASAL|<fbsym>FBal0042102==Ecol\lacZ<up>twi.PEm-Et.PEe</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002465
ASTP|<fbsym>FBtp0002622==P{twi-lacZ.PEm-Et.PEe}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Expressed in the mesoderm of the embryo in an 18-20 cell wide domain
| (compare to lacZ[PEe-Et]).
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002465	SYM 1 Ecol\lacZ<up>twi.PEe-Eds</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 663
ID|FBtr0002465
SYM|Ecol\lacZ<up>twi.PEe-Eds</up>RA
SYN|lacZ<up>twi.PEe-Eds</up>RA
ASAL|<fbsym>FBal0042098==Ecol\lacZ<up>twi.PEe-Eds</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002466
ASTP|<fbsym>FBtp0002620==P{twi-lacZ.PEe-Eds}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057893
|Jiang and Levine
|1993
RNAT|mRNA
BODP|Expressed in two lateral stripes that are 4-5 cells wide, similar but not
| identical to the <fbsym>FBgn0004635==rho</fbsym> expression pattern. Expression is excluded from the
| ventral-most 18 cells.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0057893
|Jiang and Levine
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002475	SYM 1 Ecol\lacZ<up>ana.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 866
ID|FBtr0002475
SYM|Ecol\lacZ<up>ana.P</up>RA
SYN|lacZ<up>ana.P</up>RA
ASAL|<fbsym>FBal0040786==Ecol\lacZ<up>ana.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002476
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0057907
|Ebens et al.
|1993
RNAT|mRNA
BODP|Reporter gene expression occurs in scattered cells throughout the larval
| CNS. Based on distribution, morphology and nonneural identity (as
| demonstrated by double labeling with a neuron-specific marker), these cells
| are identified as glia.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage >13 <a> central nervous system | restricted <p>
|<t> L <a> central nervous system | restricted <p>
|<t> L <a> optic lobe <p>
|<t> L <a> larval brain <p>
|<t> L <a> larval ventral ganglion <p>
|<t> L <a> glial cell <p>
}

REF
{
REFM|FBrf0057907
|Ebens et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002511	SYM 1 Ecol\lacZ<up>Ubx.ABX</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 21 Nov 2000	RESZ 1611
ID|FBtr0002511
SYM|Ecol\lacZ<up>Ubx.ABX</up>RA
SYN|lacZ<up>Ubx.ABX</up>RA
ASAL|<fbsym>FBal0042157==Ecol\lacZ<up>Ubx.ABX</up></fbsym>
DT|21 Nov 2000
|10 Mar 1998
ID2|FBtr0002512
ASTP|<fbsym>FBtp0004597==P{Ubx-lacZ.ABX}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053761
|Zhang et al.
|1991
RNAT|mRNA
BODP|In embryos, no expression observed in mesoderm.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | blastoderm <a>  <p> 40-55% egg length
|<t> E | >=extended germ band stage <a> ectoderm <of> parasegment 5, 7, 9, 11, 13  <p>
}

REFDSR
{
RDID|FBrf0053888
|Muller and Bienz
|1991
RNAT|mRNA
BODP|n embryos, from stage 7, expressed in odd-numbered parasegments 5-13;
| expression highest in anterior portion of each parasegment, with a sharp
| border at the parasegment boundary.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t>  E | stage >=7 <a> parasegment 5, 7, 9, 11, 13 <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
AGT|<fbsym>FBal0003885==eve<up>3</up></fbsym>
BODP|The usual expression in ectodermal stripes of odd-numbered parasegments 5-13
| is absent in <fbsym>FBal0003885==eve[3]</fbsym> mutant embryos.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 9 <a> parasegment 5,7,9,11,13 <of> ectoderm <p>
}

REF
{
REFM|FBrf0053761
|Zhang et al.
|1991
REFM|FBrf0053888
|Muller and Bienz
|1991
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002512	SYM 1 Ecol\lacZ<up>Ubx.pbxAS</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 985
ID|FBtr0002512
SYM|Ecol\lacZ<up>Ubx.pbxAS</up>RA
SYN|lacZ<up>Ubx.pbxAS</up>RA
ASAL|<fbsym>FBal0042196==Ecol\lacZ<up>Ubx.pbxAS</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002513
ASTP|<fbsym>FBtp0004625==P{pbxAS}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055958
|Muller and Bienz
|1992
RNAT|mRNA
AGT|<fbsym>FBal0004816==ftz<up>11</up></fbsym>
BODP|The reporter construct is expressed in ectodermal stripes in even numbered
| parasegments 6-12 after gastrulation (with weaker expression in
| parasegments 10 and 12). The stripes are absent in <fbsym>FBal0004816==ftz[11]</fbsym> embryos. The
| expression is a broad band in the posteriorhalf of blastoderm embryos is
| unaffected in <fbsym>FBal0004816==ftz[11]</fbsym> embryos.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | blastoderm <a>  <p> 15-45% egg length
|<t> E | gastrula <a> parasegment 6,8,10,12 <of> ectoderm <p>
}

REF
{
REFM|FBrf0055958
|Muller and Bienz
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002529	SYM 1 Ecol\lacZ<up>eve.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 635
ID|FBtr0002529
SYM|Ecol\lacZ<up>eve.P</up>RA
SYN|lacZ<up>eve.P</up>RA
ASAL|<fbsym>FBal0055503==Ecol\lacZ<up>eve.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002530
ASTP|<fbsym>FBtp0006547==P{eve-lacZ.P}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055679
|Panzer et al.
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0000606==eve</fbsym> directed <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression begins in blastoderm stage embryos and
| occurs at many stages of development.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | blastoderm <a>  <p>
}

REF
{
REFM|FBrf0055679
|Panzer et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002597	SYM 1 Ecol\lacZ<up>cpo.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 850
ID|FBtr0002597
SYM|Ecol\lacZ<up>cpo.P</up>RA
SYN|lacZ<up>cpo.P</up>RA
ASAL|<fbsym>FBal0041035==Ecol\lacZ<up>cpo.P</up></fbsym>
DT|14 May 1999
|10 Mar 1998
ID2|FBtr0002598
ASTP|<fbsym>FBtp0004054==P{lacZ<up>cpo.P</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056119
|Bellen et al.
|1992
RNAT|mRNA
BODP|The <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter gene is expressed in the chordotonal organs, the
| CNS, and the midgut in embryos. PNS cells other than chordotonal organ
| cells stain only weakly.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 16 <a> chordotonal organ <p>
|<t> E | stage 16 <a> embryonic central nervous system <p>
|<t> E | stage 16 <a> sensory organ mother cell <p>
|<t> E | stage 16 <a> embryonic/larval midgut <p>
}

REF
{
REFM|FBrf0056119
|Bellen et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002607	SYM 1 SteXh<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 22 Apr 1999	RESZ 360
ID|FBtr0002607
SYM|SteXh<up>+</up>RA
DT|22 Apr 1999
|10 Mar 1998
ID2|FBtr0002608

REFDSR
{
RDID|FBrf0056197
|Shevelyov
|1992
RNAT|mRNA
CC|Similarity between DNA sequences of heterochromatic Stellate genes and
| previously isolated Stellate cDNA suggests that these heterochromatic
| Stellate genes are transcribed.
}

REF
{
REFM|FBrf0056197
|Shevelyov
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002651	SYM 1 vri<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 23 Dec 2000	RESZ 3046
ID|FBtr0002651
SYM|vri<up>+</up>R
ASAL|<fbsym>FBal0075863==vri<up>+</up></fbsym>
DT|23 Dec 2000
|18 Mar 1998
ID2|FBtr0002652
ASGN|<fbsym>FBgn0016076==vri</fbsym>

REFDSR
{
RDID|FBrf0094777
|George and Terracol
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0016076==vri</fbsym> transcripts are uniformly distributed in preblastoderm embryos.
| Transcripts begin to be localized from stage 10 on and can be seen at
| higher levels in the foregut primordium. At stage 13, transcripts are
| present at high levels in the hypopharyngeal lobe at the ventral opening of
| the stomodeum as well as in the foregut, the proventriculus primordium, the
| hindgut, the anal pads, and the posterior spiracles. In stage 14,
| expression is observed in stripes along the epidermis in the anterior part
| of each segment and a longitudinal stripe is observed dorsally along the
| epidermis. At stage 15, expression is seen in thin dorsal stripes along the
| closing epidermis and in the amnioserosa. At stage 16, expression is still
| present in the stomodeum and the anal pads and is seen in a network of
| lateral and dorsal cells that is probably the tracheal track. In ovaries,
| transcripts are first observed at stage S8 in the nucleus and cytoplasm of
| nurse cells and in columnar follicular epithelial cells. Transcripts are
| also expressed in the gut, brain, and imaginal discs of third instar larvae.
ASM|in situ
CVBODP|in situ
|<t> E | early <a>  <p> ubiquitous
|<t> E | stage >=10 <a> embryonic/larval foregut <p>
|<t> E | stage 13 <a> intercalary segment <p>
|<t> E | stage 13-16 <a> stomodeum <p>
|<t> E | stage 13 <a> embryonic/larval proventriculus <p>
|<t> E | stage 13,14 <a> hindgut primordium <p>
|<t> E | stage 13-16 <a> anal pad <p>
|<t> E | stage 13 <a> posterior spiracle primordium <p>
|<t> E | stage 14 <a> epidermis | restricted <p>
|<t> E | stage 16 <a> embryonic/larval tracheal system <p>
|<t> E | stage 15 <a> amnioserosa <p>
|<t> O,A | stage S8 <a> nurse cell <p>
|<t> O,A | stage S8 <a> follicle cell <p>
|<t> L | third instar <a> embryonic/larval digestive system <p>
|<t> L | third instar <a> larval brain <p>
|<t> L | third instar <a> imaginal disc <p>
}

REFDSR
{
RDID|FBrf0122968
|Blau and Young
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0016076==vri</fbsym> and <fbsym>FBgn0014396==tim</fbsym> transcripts are expressed in the same cells in the brain,
| including photoreceptor cells and two clusters in the brain corresponding
| to the ventral and dorsal lateral neurons. Reporter construct expression
| studiesindicate that <fbsym>FBgn0016076==vri</fbsym> is also expressed in (but not limited to)
| lateral neurons in third instar larvae.
ASM|in situ
|transcript distribution deduced from reporter protein
CVBODP|in situ
|<t> A <a> photoreceptor cell <p>
|<t> A <a> dorsal adult lateral neuron <p>
|<t> A <a> ventral adult lateral neuron <p>
|transcript distribution deduced from reporter protein
|<t> L | third instar <a> larval lateral neuron <p>
}

REF
{
REFM|FBrf0094777
|George and Terracol
|1997
REFM|FBrf0122968
|Blau and Young
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002673	SYM 1 sim<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 251
ID|FBtr0002673
SYM|sim<up>+</up>R
ASAL|<fbsym>FBal0071053==sim<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0004666==sim</fbsym>

REFDSR
{
RDID|FBrf0047635
|Crews et al.
|1988
RNAT|mRNA
}

REF
{
REFM|FBrf0047635
|Crews et al.
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002683	SYM 1 grh<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 905
ID|FBtr0002683
SYM|grh<up>+</up>R
ASAL|<fbsym>FBal0069210==grh<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0004586==grh</fbsym>

REFDSR
{
RDID|FBrf0049808
|Dynlacht et al.
|1989
RNAT|mRNA
BODP|By stage 11, <fbsym>FBgn0004586==grh</fbsym> is expressed throughout the ectoderm. Later, expression
| is observed in the ventral nerve cord and the brain.
ASM|in situ
|radioisotope in situ
CVBODP|in situ
|radioisotope in situ
|<t> E <a> epidermis <p>
|<t> E <a> ventral nerve cord <p>
|<t> E <a> embryonic brain <p>
CC|A 3kb <fbsym>FBgn0004586==grh</fbsym> cDNA was isolated and shown to be incomplete. The protein
| translated from the cDNA was shown to both bind cis-control elements in the
| <fbsym>FBgn0003944==Ubx</fbsym> and <fbsym>FBgn0000422==Ddc</fbsym> promoters and activate <fbsym>FBgn0003944==Ubx</fbsym> transcription in vitro.
}

REF
{
REFM|FBrf0049808
|Dynlacht et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002710	SYM 1 Ecol\lacZ<up>bps.PB</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 660
ID|FBtr0002710
SYM|Ecol\lacZ<up>bps.PB</up>RA
SYN|lacZ<up>bps.PB</up>RA
ASAL|<fbsym>FBal0056702==Ecol\lacZ<up>bps.PB</up></fbsym>
DT|14 May 1999
|28 Jul 1998
ASTP|<fbsym>FBtp0007084==P{bps-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0091025
|Bush et al.
|1996
RNAT|mRNA
BODP|Reporter gene expression recapitulates the pattern of <fbsym>FBgn0015550==tap</fbsym> transcription in
| stage 12-15 embryos.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 10-15 <a> ventral nerve cord | restricted <p>
}

REF
{
REFM|FBrf0091025
|Bush et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002713	SYM 1 ifc<up>+</up>RB	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 635
ID|FBtr0002713
SYM|ifc<up>+</up>RB
SYN|des-2
ASAL|<fbsym>FBal0069264==ifc<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0001941==ifc</fbsym>

REFDSR
{
RDID|FBrf0091054
|Endo et al.
|1996
RNAT|mRNA
EXNSQ|2,3
BODP|An alternate <fbsym>FBgn0001941==ifc</fbsym> transcript is detected weakly in whole body but not in
| testis RNA.
ASM|northern blot
CC|The alternate <fbsym>FBgn0001941==ifc</fbsym> transcript is thought to produce an alternate small form
| of <fbsym>FBgn0001941==ifc</fbsym> protein but this transcript and its putative product were not
| described in detail.
}

REF
{
REFM|FBrf0091054
|Endo et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002766	SYM 1 scb<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 2881
ID|FBtr0002766
SYM|scb<up>+</up>R
ASAL|<fbsym>FBal0071018==scb<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0003328==scb</fbsym>

REFDSR
{
RDID|FBrf0099731
|Stark et al.
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0003328==scb</fbsym> transcripts are uniformly distributed in early embryos. Specific
| expression begins at gastrulation. Transcripts are first observed in the
| amnioproctodeal invagination, both prior to and during the invagination.
| Transcripts are observedin the amnioserosa from the extended germ band
| stage until dorsal closure. Subsequently, expression is seen in the dorsal
| vessel. Two regions of expression are observed in the anterior regions of
| early germ-band-extended embryos. They later aggregrate into two rounded
| clusters and are seen on either ide of the foregut at stage 12. Expression
| is observed in the tracheal system including the invaginating tracheal
| pits, the transverse connectives and the anterior spiracles. During stage
| 17, prominent expression is seen in the dorsal trunks as well. Portions of
| the midgut express <fbsym>FBgn0003328==scb</fbsym> throughout embryonic development. At earlier
| stages, expression is seen in the presumptive visceral mesoderm as well as
| the anterior and posterior midgut primordia. Later, expression is strongest
| in the forming midgut constrictions. By late embryogenesis, expression is
| seen throughout the midgut including the gastric caecae. In stages 15 and
| 16, expression is seen in the midline cells of the ventral nerve cord as
| well as scattered cells throughout the nerve cord. Expression is also seen
| in some cells of the brain periphery and in the antenno-maxillary complex.
| Finally, expression is observed in the salivary glands in both the ducts
| and the pore.
ASM|in situ
CVBODP|in situ
|<t> E | early <a>  <p> ubiquitous
|<t> E | stage 7 <a> amnioproctodeal invagination <p>
|<t> E | stage 8-14 <a> amnioserosa <p>
|<t> E | stage 15 <a> embryonic/larval dorsal vessel <p>
|<t> E | stage 9 <a> tracheal pit <p>
|<t> E | late <a> embryonic/larval transverse connective <p>
|<t> E | late <a> embryonic/larval anterior spiracle <p>
|<t> E | late <a> embryonic/larval dorsal trunk <p>
|<t> E | stage 9 <a> visceral mesoderm | presumptive <p>
|<t> E | stage 11 <a> anterior midgut primordium <p>
|<t> E | stage 11 <a> posterior midgut primordium <p>
|<t> E | stage 13-17 <a> embryonic/larval midgut <p>
|<t> E | late <a> embryonic/larval proventriculus <p>
|<t> E | late <a> gastric caecum <p>
|<t> E | stage 16 <a> midgut constriction <p>
|<t> E | stage 15,16 <a> mesectoderm <p>
|<t> E | stage 16 <a> ventral nerve cord | restricted <p>
|<t> E | stage 15-17 <a> antenno-maxillary complex <p>
|<t> E | stage 13-17 <a> embryonic/larval salivary gland <p>
|<t> E | late <a> embryonic/larval salivary gland duct <p>
}

REF
{
REFM|FBrf0099731
|Stark et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002790	SYM 1 cad<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 13 Sep 1999	RESZ 2342
ID|FBtr0002790
SYM|cad<up>+</up>R
SYN|unnamed
ASAL|<fbsym>FBal0068729==cad<up>+</up></fbsym>
DT|13 Sep 1999
|28 Jul 1998
ASGN|<fbsym>FBgn0000251==cad</fbsym>
ASPP|<fbsym>FBpp0002383==cad<up>+</up>P472</fbsym>

REFDSR
{
RDID|FBrf0042432
|Mlodzik et al.
|1985
RNAT|mRNA
BODP|<fbsym>FBgn0000251==cad</fbsym> is expressed in the cytoplasm of nurse cells and oocytes of stage
| S7-S8 oocytes. The transcript is ubiquitous in early embryos. After the
| migration of nuclei to the periphery, an anterio-posterior gradient is
| detected, with the gradientshifting more posteriorly after subsequent
| divisions. At the beginning of gastrulation, <fbsym>FBgn0000251==cad</fbsym> transcript is restricted
| to a 3-5 cell wide band at 13-19% egg length. At the completion of germ
| band extension, <fbsym>FBgn0000251==cad</fbsym> expression is seen in the cells of the proctodeum and
| the amnioproctodeal invagination. From germ band retraction onwards, <fbsym>FBgn0000251==cad</fbsym>
| expression is visible in the posterior midgut and hindgut primordia.
ASM|in situ
CVBODP|in situ
|<t> O,A <a> nurse cell <p>
|<t> O,A <a> oocyte <p>
|<t> E | early <a>  <p>
|<t> E | syncytial blastoderm <a>  <p> anterior posterior gradient
|<t> E | cellular blastoderm <a>  <p> 13-19% egg length
|<t> E | extended germ band stage <a> proctodeum <p>
|<t> E | extended germ band stage <a> amnioproctodeal invagination <p>
|<t> E | >=contracted germ band stage <a> posterior midgut primordium <p>
|<t> E | >=contracted germ band stage <a> hindgut primordium <p>
}

REFDSR
{
RDID|FBrf0086389
|Dubnau and Struhl
|1996
RNAT|mRNA
CC|The BRE (bcd response element) region of the <fbsym>FBgn0000251==cad</fbsym> transcript was used to
| identify RNA binding domains in the <fbsym>FBgn0000166==bcd</fbsym> protein.  In addition, various
| <fbsym>FBgn0000251==cad</fbsym> 3' UTR constructs were used to investigate the dependance of <fbsym>FBgn0000251==cad</fbsym>
| upon <fbsym>FBgn0000166==bcd</fbsym> for proper localization and activity.
}

REFDSR
{
RDID|FBrf0086595
|Rivera-Pomar et al.
|1996
BODP|<fbsym>FBgn0000251==cad</fbsym> transcript is evenly distributed in the early embryo.
ASM|in situ
CVBODP|in situ
|<t> E | stage 4 <a> <p>
}

REF
{
REFM|FBrf0042432
|Mlodzik et al.
|1985
REFM|FBrf0086389
|Dubnau and Struhl
|1996
REFM|FBrf0086595
|Rivera-Pomar et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002850	SYM 1 Ecol\lacZ<up>zen.&Dgr;Xmn</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 972
ID|FBtr0002850
SYM|Ecol\lacZ<up>zen.&Dgr;Xmn</up>RA
SYN|lacZ<up>zen.DeltaXmn</up>RA
ASAL|<fbsym>FBal0047941==Ecol\lacZ<up>zen.&Dgr;Xmn</up></fbsym>
DT|14 May 1999
|28 Jul 1998
ASTP|<fbsym>FBtp0005742==P{&Dgr;Xmn}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049807
|Doyle et al.
|1989
RNAT|mRNA
BODP|<fbsym>FBgn0004053==zen</fbsym> upstream region deleted between coordinates -1.2kb and -0.82kb drives
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in a "dorsal-on/ventral-off" pattern resembling wild
| type <fbsym>FBgn0004053==zen</fbsym> expression. Expression is detected in embryonic cycle14,
| dorsally and extending into the anterior and posterior poles.
ASM|transcript distribution deduced from reporter protein
|radioisotope in situ
CVBODP|transcript distribution deduced from reporter protein
|radioisotope in situ
|<t> E <a>  <p> dorsal embryo
ASCRGN|<fbsym>FBgn0004053==zen</fbsym>
}

REF
{
REFM|FBrf0049807
|Doyle et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002851	SYM 1 Ecol\lacZ<up>zen.&Dgr;Rsa</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 851
ID|FBtr0002851
SYM|Ecol\lacZ<up>zen.&Dgr;Rsa</up>RA
SYN|lacZ<up>zen.DeltaRsa</up>RA
ASAL|<fbsym>FBal0047940==Ecol\lacZ<up>zen.&Dgr;Rsa</up></fbsym>
DT|14 May 1999
|28 Jul 1998
ASTP|<fbsym>FBtp0005741==P{&Dgr;Rsa}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049807
|Doyle et al.
|1989
RNAT|mRNA
BODP|When <fbsym>FBgn0004053==zen</fbsym> upstream sequence deleted at coordinates -1.3 kb to -0.8 kb
| drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter expression, transient early ventral
| misexpression is detected.
ASM|transcript distribution deduced from reporter protein
|radioisotope in situ
CVBODP|transcript distribution deduced from reporter protein
|radioisotope in situ
|<t> E | early <a>  <p> dorsal embryo <&> ventral embryo
ASCRGN|<fbsym>FBgn0004053==zen</fbsym>
}

REF
{
REFM|FBrf0049807
|Doyle et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002852	SYM 1 Ecol\lacZ<up>zen.&Dgr;Nru</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 961
ID|FBtr0002852
SYM|Ecol\lacZ<up>zen.&Dgr;Nru</up>RA
SYN|lacZ<up>zen.DeltaNru</up>RA
ASAL|<fbsym>FBal0047939==Ecol\lacZ<up>zen.&Dgr;Nru</up></fbsym>
DT|14 May 1999
|28 Jul 1998
ASTP|<fbsym>FBtp0005740==P{&Dgr;Nru}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049807
|Doyle et al.
|1989
RNAT|mRNA
BODP|When <fbsym>FBgn0004053==zen</fbsym> upstream sequence deleted between -1.5 and -1.1 drives
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter expression, transient early ventral misexpression is
| detected. Expression is not detected in the anterior and posterior poles.
ASM|transcript distribution deduced from reporter protein
|radioisotope in situ
CVBODP|transcript distribution deduced from reporter protein
|radioisotope in situ
|<t> E | embryonic cycle 14 <a>  <p> dorsal embryo <&> ventral embryo
|<t> E | gastrulation <a>  <p> dorsal embryo
ASCRGN|<fbsym>FBgn0004053==zen</fbsym>
}

REF
{
REFM|FBrf0049807
|Doyle et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002853	SYM 1 Ecol\lacZ<up>zen.&Dgr;Acc</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 1169
ID|FBtr0002853
SYM|Ecol\lacZ<up>zen.&Dgr;Acc</up>RA
SYN|lacZ<up>zen.DeltaAcc</up>RA
ASAL|<fbsym>FBal0047938==Ecol\lacZ<up>zen.&Dgr;Acc</up></fbsym>
DT|14 May 1999
|28 Jul 1998
ASTP|<fbsym>FBtp0005739==P{&Dgr;Acc}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049807
|Doyle et al.
|1989
RNAT|mRNA
BODP|The 1.6 kb <fbsym>FBgn0004053==zen</fbsym> upstream region deleted between coordinates -300 and -42 is
| sufficient to drive dorsal <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the precellular
| embryo. After cellularization, <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the transformants
| is abnormal, and does not become further refined. This region is necessary
| for the refinement of the <fbsym>FBgn0004053==zen</fbsym> pattern of expression, and its function is
| separable from elements controlling dorsal expression.
ASM|transcript distribution deduced from reporter protein
|radioisotope in situ
CVBODP|transcript distribution deduced from reporter protein
|radioisotope in situ
|<t> E | >embryonic cycle 14  <a>  <p> dorsal embryo
ASCRGN|<fbsym>FBgn0004053==zen</fbsym>
}

REF
{
REFM|FBrf0049807
|Doyle et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002895	SYM 1 wupA<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 16 Sep 1998	RESZ 940
ID|FBtr0002895
SYM|wupA<up>+</up>R
ASAL|<fbsym>FBal0071490==wupA<up>+</up></fbsym>
DT|16 Sep 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0004028==wupA</fbsym>

REFDSR
{
RDID|FBrf0054031
|Barbas et al.
|1991
RNAT|mRNA
BODP|In situ analysis using a probe common to all <fbsym>FBgn0004028==wupA</fbsym> transcripts shows <fbsym>FBgn0004028==wupA</fbsym>
| to be expressed in the mesoderm of 12 hr embryos, and in the indirect
| flight muscles and tubular muscles of larvae and adults. An exon-3-specific
| probedetects transcript only in adult indirect flight muscles.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | 12 hr <a> mesoderm <p>
|<t> L, A <a> indirect flight muscle <p>
|<t> L, A <a> tubular muscle <p>
}

REFDSR
{
RDID|FBrf0054415
|Beall and Fyrberg
|1991
RNAT|mRNA
CC|The cDNA sequenced is a non-adult form, as it lacks exons 3 and 9.
}

REF
{
REFM|FBrf0054031
|Barbas et al.
|1991
REFM|FBrf0054415
|Beall and Fyrberg
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002914	SYM 1 Syb<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 1544
ID|FBtr0002914
SYM|Syb<up>+</up>R
ASAL|<fbsym>FBal0068428==Syb<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0003660==Syb</fbsym>

REFDSR
{
RDID|FBrf0064405
|Chin et al.
|1993
RNAT|mRNA
BODP|In situ hybridization was performed with a probe common to both <fbsym>FBgn0003660==Syb</fbsym>
| transcripts. Diffuse <fbsym>FBgn0003660==Syb</fbsym> expression was detected before cellularization.
| With the onset of cellularization, signal was distributed at the
| circumference of the embryo, internal to the nuclei. After germ band
| extension, <fbsym>FBgn0003660==Syb</fbsym> transcript localized to the foregut and hindgut primordia.
| After germ band retraction, <fbsym>FBgn0003660==Syb</fbsym> expression was detected in the primordia
| of the foregut, the anterior and posterior midgut, and Malpighian tubules.
| The anterior end of the embryo (presum tive head) also accumulated low
| levels of <fbsym>FBgn0003660==Syb</fbsym>. <fbsym>FBgn0003660==Syb</fbsym> expression is detected in the adult gut.
ASM|in situ
CVBODP|in situ
|<t> E | early <a>  <p>
|<t> E | extended germ band stage <a> stomodeum <p>
|<t> E | extended germ band stage <a> hindgut primordium <p>
|<t> E | contracted germ band stage <a> stomodeum <p>
|<t> E | contracted germ band stage <a> anterior midgut primordium <p>
|<t> E | contracted germ band stage <a> posterior midgut primordium <p>
|<t> E | contracted germ band stage <a> Malpighian tubule primordium <p>
|<t> A <a> pupal/adult digestive system <p>
}

REF
{
REFM|FBrf0064405
|Chin et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002935	SYM 1 ple<up>+</up>RC	TRL 1 -	ASM 1 pcr	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 404
ID|FBtr0002935
SYM|ple<up>+</up>RC
SYN|typeIIL
ASAL|<fbsym>FBal0070892==ple<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0005626==ple</fbsym>

REFDSR
{
RDID|FBrf0076709
|Birman et al.
|1994
RNAT|mRNA
BODP|This minor transcript is detected at low levels in adult head and brain
| using RT-PCR.
ASM|pcr
CVBODP|pcr
|<t> A <a> adult head <p>
}

REF
{
REFM|FBrf0076709
|Birman et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002985	SYM 1 pan<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 477
ID|FBtr0002985
SYM|pan<up>+</up>R
ASAL|<fbsym>FBal0078829==pan<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0019664==pan</fbsym>

REFDSR
{
RDID|FBrf0093264
|van de Wetering et al.
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0019664==pan</fbsym> accumulates in early embryos. By germ band extension, most tissues
| express high levels of <fbsym>FBgn0019664==pan</fbsym>.
ASM|in situ
CVBODP|in situ
|<t> E  <a>  <p>
}

REF
{
REFM|FBrf0093264
|van de Wetering et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002986	SYM 1 pan<up>+</up>RA	TRL 1 -	ASM 1 pcr	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 684
ID|FBtr0002986
SYM|pan<up>+</up>RA
SYN|dTCF-A
ASAL|<fbsym>FBal0078829==pan<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0019664==pan</fbsym>

REFDSR
{
RDID|FBrf0093264
|van de Wetering et al.
|1997
RNAT|mRNA
BODP|Using reverse PCR, the A (major) form of <fbsym>FBgn0019664==pan</fbsym> transcript was detected in
| 0-2 hour embryos. The B (minor) form of <fbsym>FBgn0019664==pan</fbsym> transcript was not detected
| during embryogenesis.
ASM|pcr
CVBODP|pcr
|<t> E | 0-2hr <a>  <p>
CC|The major (A) and minor (B) forms of <fbsym>FBgn0019664==pan</fbsym> transcript differ in the second
| part of the HMG box.
}

REF
{
REFM|FBrf0093264
|van de Wetering et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0002987	SYM 1 pan<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 28 Jul 1998	RESZ 623
ID|FBtr0002987
SYM|pan<up>+</up>RB
SYN|dTCF-B
ASAL|<fbsym>FBal0078829==pan<up>+</up></fbsym>
DT|28 Jul 1998
|28 Jul 1998
ASGN|<fbsym>FBgn0019664==pan</fbsym>

REFDSR
{
RDID|FBrf0093264
|van de Wetering et al.
|1997
RNAT|mRNA
BODP|Using reverse PCR, the A form of <fbsym>FBgn0019664==pan</fbsym> transcript was detected in 0-2 hour
| embryos. The B form of <fbsym>FBgn0019664==pan</fbsym> transcript was not detected during embryogenesis.
CC|The major (A) and minor (B) forms of <fbsym>FBgn0019664==pan</fbsym> transcript differ in the second
| part of the HMG box.
}

REF
{
REFM|FBrf0093264
|van de Wetering et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003011	SYM 1 gsb<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 5 Nov 1999	RESZ 4128
ID|FBtr0003011
SYM|gsb<up>+</up>R
SYN|gsb-d<up>+</up>R
|BSH9
ASAL|<fbsym>FBal0100470==gsb<up>+</up></fbsym>
DT|5 Nov 1999
|16 Sep 1998
ASGN|<fbsym>FBgn0001148==gsb</fbsym>

REFDSR
{
RDID|FBrf0043894
|Bopp et al.
|1986
RNAT|mRNA
BODP|From the start of gastrulation through germ band extension, <fbsym>FBgn0001148==gsb</fbsym> transcript
| is detected in 15 regularly spaced stripes. Hybridization is also detected
| in the anterior of the embryo, possibly in the labral segment primordium.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | gastrulation-extended germ band <a>  <p> stripes
}

REFDSR
{
RDID|FBrf0046110
|Cote et al.
|1987
RNAT|mRNA
BODP|<fbsym>FBgn0001148==gsb</fbsym> transcript is first detected in the late blastoderm stage, in the
| anterior of the embryo. At the start of gastrulation, 7 stripes appear at
| between 20-70% egg length. An additional stripe is seen in an anterior,
| dorsolateral position. At the extended germ band stage, 15 4-cell-wide
| stripes covering half of each segment are visible. Low expression levels
| are seen after germ band extension. Anterior labeling continues to be
| detected through the contracted germ band stage.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | blastoderm | late - contracted germ band <a>  <p> anterior
|<t> E | gastrulation - extended germ band <a>  <p> stripes
}

REFDSR
{
RDID|FBrf0046277
|Baumgartner et al.
|1987
RNAT|mRNA
BODP|<fbsym>gsb-d</fbsym>  is first detected in embryonic cycle 14A, at 70% egg length, and
| subsequently also at 75% egg length. During cellularization, expression is
| detected in a segmentally repeated pattern, first in odd-numbered bands,
| and later in even-numbered bands intercalating with the odd-numbered bands,
| with a resulting 15-band pattern at the onset of gastrulation.
| Colocalization with <fbsym>FBgn0003145==prd</fbsym> transcript shows that the expression in the
| odd-numbered bands coincides with <fbsym>FBgn0003145==prd</fbsym> expression. At the start of germ
| band elongation, both the bands and the gaps between them are about 2-3
| cell-wide, but subsequently the gaps increase to double the band width. The
| segmentally repeated pattern in thoracic and abdominal segments T1-A8 are
| restricted to the posterior third of each segment, and overlaps with <fbsym>FBgn0000577==en</fbsym>
| transcript expression. At mid germ-band extension, <fbsym>gsb-d</fbsym> transcripts are
| observed in mesoderm, neurectoderm and ectoderm.  When the germ band has
| fully extended, <fbsym>gsb-d</fbsym> transcripts are observed in 3 additional posterior
| bands and in 3 pairs of anterior regions. Additional transient expression
| is detected at the dorsal junction between the posterior midgut primordium
| and proctodeum. During shortening of the germ  band, transcripts disappear
| from mesodermal cells of bands 0-17 and one of the anterior regions, while
| ectodermal expression increases in bands 0, 1, and 17. Transient expression
| is also detected in the anterior of the ventral nerve cord. During head
| involution, transcripts disappear from ectoderm, first from thoracic, then
| abdominal and head segments. Expression remains in the pharynx posterior to
| the salivary gland, and in the anal pads. Anal pad expression subsequently
| disappears. No <fbsym>gsb-d</fbsym> expression is detected at 18 hr of embryogenesis.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | embryonic cycle 14A <a>  <p> 70% egg length
|<t> E | embryonic cycle 14A <a>  <p> 75% egg length
|<t> E | >=stage 5 <a> head segment <p> segmentally repeated
|<t> E | >=stage 5 <a> abdominal segment 1..11 | posterior <p> segmentally repeated
|<t> E | >=stage 5 <a> thoracic segment | posterior <p> segmentally repeated
|<t> E | >=stage 10-12 <a> mesoderm <p>
|<t> E | >=stage 10-14 <a> ectoderm <p>
|<t> E | stage 13 | early <a> ventral nerve cord | anterior <p>
|<t> E | stage 17 <a> embryonic/larval pharynx | restricted <p>
|<t> E | stage 17 <a> anal pad <p>
}

REF
{
REFM|FBrf0043894
|Bopp et al.
|1986
REFM|FBrf0046110
|Cote et al.
|1987
REFM|FBrf0046277
|Baumgartner et al.
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003012	SYM 1 gsb-n<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 5 Nov 1999	RESZ 2516
ID|FBtr0003012
SYM|gsb-n<up>+</up>R
SYN|gsb-p<up>+</up>R
|BSH4
ASAL|<fbsym>FBal0100471==gsb-n<up>+</up></fbsym>
DT|5 Nov 1999
|16 Sep 1998
ASGN|<fbsym>FBgn0001147==gsb-n</fbsym>

REFDSR
{
RDID|FBrf0043894
|Bopp et al.
|1986
RNAT|mRNA
BODP|<fbsym>FBgn0001147==gsb-n</fbsym> transcript is detected in 15 regularly spaced stripes starting at
| germ band extension. Accumulation in neuroblasts is higher than that in the ectoderm.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E <a>  <p>
}

REFDSR
{
RDID|FBrf0046110
|Cote et al.
|1987
RNAT|mRNA
BODP|<fbsym>FBgn0001147==gsb-n</fbsym> transcript is first detected at stage 9 of embryogenesis. The
| initial pattern of expression resembles the 15-striped pattern of <fbsym>FBgn0001148==gsb</fbsym>
| transcript expression, with an additional anterior stripe, and a stripe
| anterior to thestomodeal invagination. Expression is detected in the
| vicinity of neural cells, and extends into the epidermal layer. Starting at
| stage 13, expression becomes exclusively epidermal.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | >=stage 9 <a>  <p> stripes
|<t> E | stage 13 <a> epidermis <p>
}

REFDSR
{
RDID|FBrf0046277
|Baumgartner et al.
|1987
RNAT|mRNA
BODP|<fbsym>gsb-p</fbsym> transcripts are first detected during germ band elongation, first in
| neuroblasts of the germ band, and later of the procephalic lobe. At the
| extended germ band stage, a segmentally repeated pattern of 19 bands, and 2
| non segmental clusers of neuronal precursor cells express <fbsym>gsb-p</fbsym>.
| Expression within abdominal and thoracic segments is restricted to the
| posterior part of each segment. During shortening of the germ band,
| expression continues to be detected mainly in neuronal precursors and in
| some epithelial cells. When the germ band retraction is complete,
| expression is detected only in bands 0 and 17, and a new segmentally
| repeated pattern consisting of specific neurons per segment has emerged.
| Ventral nervous system expression of <fbsym>gsb-p</fbsym> persists through larval stages.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | stage 9 <a> neuroblast <p>
|<t> E | stage 11 <a> neurectoderm <p> segmentally repeated
|<t> E | stage 12 | late <a> embryonic neuroblast <p>
|<t> E | stage 13 <a> embryonic neuron | segmentally repeated pattern <p>
|<t> L <a> ventral nervous system <p>
}

REF
{
REFM|FBrf0043894
|Bopp et al.
|1986
REFM|FBrf0046110
|Cote et al.
|1987
REFM|FBrf0046277
|Baumgartner et al.
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003032	SYM 1 zip<up>+</up>R	TRL 1 -	ASM 1 radioisotope in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Apr 1999	RESZ 556
ID|FBtr0003032
SYM|zip<up>+</up>R
ASAL|<fbsym>FBal0071514==zip<up>+</up></fbsym>
DT|21 Apr 1999
|16 Sep 1998
ASGN|<fbsym>FBgn0005634==zip</fbsym>

REFDSR
{
RDID|FBrf0046110
|Cote et al.
|1987
RNAT|mRNA
BODP|In stage 8 embryos, <fbsym>FBgn0005634==zip</fbsym> transcript accumulates in neuroblasts, and
| transiently in mesoderm, but not in the ectoderm.  From germ band extension
| onwards, expression is strictly neural.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | stage 8 <a> mesoderm <p>
}

REF
{
REFM|FBrf0046110
|Cote et al.
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003102	SYM 1 bss<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Sep 1998	RESZ 655
ID|FBtr0003102
SYM|bss<up>+</up>R
ASAL|<fbsym>FBal0068716==bss<up>+</up></fbsym>
DT|16 Sep 1998
|16 Sep 1998
ASGN|<fbsym>FBgn0000231==bss</fbsym>

REFDSR
{
RDID|FBrf0092488
|Canaple et al.
|1997
RNAT|mRNA
CC|Transcripts of 2 and 3 kb were observed on Northern blots. PCR analysis
| indicated that alternate splicing of the third exon removes 7 amino acids,
| resulting in a putative 386 aa protein. This putative alternate transcript
| also retains the first intron. It is not clear if this transcript
| corresponds to the 3 kb transcript seen on Northern blots, or if it is a
| second 1.9 kb transcript.
}

REF
{
REFM|FBrf0092488
|Canaple et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003130	SYM 1 Calx<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Sep 1998	RESZ 640
ID|FBtr0003130
SYM|Calx<up>+</up>R
ASAL|<fbsym>FBal0068117==Calx<up>+</up></fbsym>
DT|16 Sep 1998
|16 Sep 1998
ASGN|<fbsym>FBgn0013995==Calx</fbsym>

REFDSR
{
RDID|FBrf0098346
|Schwarz and Benzer
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0013995==Calx</fbsym> transcript is ubiquitous in the embryo. <fbsym>FBgn0013995==Calx</fbsym> transcript is detected
| in the retina, brain and optic ganglion in adult head sections.
ASM|in situ
|northern blot
CVBODP|northern blot
|<t> E <a> <p>
|in situ
|<t> E <a> <p> ubiquitous
|<t> A <a> retina <p>
|<t> A <a> adult brain <p>
|<t> A <a> optic nerve <p>
}

REF
{
REFM|FBrf0098346
|Schwarz and Benzer
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003148	SYM 1 for<up>+</up>RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 16 Sep 1998	RESZ 331
ID|FBtr0003148
SYM|for<up>+</up>RD
SYN|T1b
ASAL|<fbsym>FBal0068959==for<up>+</up></fbsym>
DT|16 Sep 1998
|16 Sep 1998
ASGN|<fbsym>FBgn0000721==for</fbsym>
ASPP|<fbsym>FBpp0000504==for-P1</fbsym>

REFDSR
{
RDID|FBrf0050121
|Kalderon and Rubin
|1989
RNAT|mRNA
EXNSQ|3,4a,5a,8-13
}

REF
{
REFM|FBrf0050121
|Kalderon and Rubin
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003153	SYM 1 for<up>+</up>RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 16 Sep 1998	RESZ 337
ID|FBtr0003153
SYM|for<up>+</up>RC
SYN|cD4
ASAL|<fbsym>FBal0068959==for<up>+</up></fbsym>
DT|16 Sep 1998
|16 Sep 1998
ASGN|<fbsym>FBgn0000721==for</fbsym>
ASPP|<fbsym>FBpp0002488==for<up>+</up>P567</fbsym>

REFDSR
{
RDID|FBrf0050121
|Kalderon and Rubin
|1989
RNAT|mRNA
EXNSQ|5b,8-13
}

REF
{
REFM|FBrf0050121
|Kalderon and Rubin
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003221	SYM 1 Cbl<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Sep 1998	RESZ 686
ID|FBtr0003221
SYM|Cbl<up>+</up>R
ASAL|<fbsym>FBal0079276==Cbl<up>+</up></fbsym>
DT|16 Sep 1998
|16 Sep 1998
ASGN|<fbsym>FBgn0020224==Cbl</fbsym>

REFDSR
{
RDID|FBrf0093510
|Hime et al.
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0020224==Cbl</fbsym> transcripts are most strongly detected in pre-blastoderm and
| blastoderm embryos by in situ hybridization. Expression is also detected in
| some internal tissues of germ band extended embryos. In third instar
| larvae, they are detected uniformly in imaginal discs.
ASM|in situ
CVBODP|in situ
|<t> E | pre-blastoderm <a>  <p>
|<t> E | blastoderm <a>  <p>
|<t> L | third instar <a> imaginal disc <p>
}

REF
{
REFM|FBrf0093510
|Hime et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003236	SYM 1 Ecol\lacZ<up>toc-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 2 Jun 2000	RESZ 1485
ID|FBtr0003236
SYM|Ecol\lacZ<up>toc-P</up>RA
SYN|lacZ<up>toc-P</up>RA
ASAL|<fbsym>FBal0086429==Ecol\lacZ<up>toc-P</up></fbsym>
DT|2 Jun 2000
|31 Dec 1998
ASTI|<fbsym>FBti0009614==P{A92}toc<up>P</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058617
|Lemaitre et al.
|1993
RNAT|mRNA
BODP|In females, expressed in both somatic and germline tissues of the ovary.
|  Expression repressed in offspring of P cytotype females crossed to males
| carrying insertion: strong to complete repression in germline; less
| efficient repression in ovarian somatictissues.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A,O <a> ovary <p>
|<t> A,S <a> testis <p>
}

REFDSR
{
RDID|FBrf0100048
|Grammont et al.
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0014447==Ecol\lacZ</fbsym> is expressed during oogenesis, and is first detected in
| germarium region 2a, peaks in germarium region 2b, and subsequently
| decreases and has disappeared by stage S3. Expression is detected once more
| at stage S8, in the oocyte, and persists through the rest of oogenesis.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> O,A <a> germarium region 2a <p>
|<t> O,A <a> germarium region 2b <p>
|<t> O | <=stage S3 <a>  <p>
ASCRGN|<fbsym>FBgn0015600==toc</fbsym>
}

REF
{
REFM|FBrf0058617
|Lemaitre et al.
|1993
REFM|FBrf0100048
|Grammont et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003237	SYM 1 sty<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 31 Dec 1998	RESZ 947
ID|FBtr0003237
SYM|sty<up>+</up>R
ASAL|<fbsym>FBal0071166==sty<up>+</up></fbsym>
DT|31 Dec 1998
|31 Dec 1998
ASGN|<fbsym>FBgn0014388==sty</fbsym>

REFDSR
{
RDID|FBrf0100567
|Hacohen et al.
|1998
RNAT|mRNA
BODP|A set of 3.2-4.4 kb <fbsym>FBgn0014388==sty</fbsym> mRNAs are expressed starting just after tracheal
| development begins. <fbsym>FBgn0014388==sty</fbsym> is detected in the tracheal system, in midline
| glia, the dorsal vessel, a subset of ventral nerve cord neurons, oenocytes,
| and later, in the eye imaginal disc.
ASM|northern blot
CVBODP|northern blot
|<t> E | 5-22 hr <a>  <p>
|in situ
|transcript distribution deduced from reporter protein
|<t> E | stage >=12 <a> embryonic/larval tracheal system <p>
|<t> E | late <a> midline glial cell <p>
|<t> E | late <a> embryonic/larval dorsal vessel <p>
|<t> E | late <a> oenocyte <p>
|<t> E | late <a> neuron <of> ventral nerve cord <p>
}

REF
{
REFM|FBrf0100567
|Hacohen et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003283	SYM 1 Hsr&ohgr;<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 13 Sep 1999	RESZ 2650
ID|FBtr0003283
SYM|Hsr&ohgr;<up>+</up>R
ASAL|<fbsym>FBal0067925==Hsr&ohgr;<up>+</up></fbsym>
DT|13 Sep 1999
|31 Dec 1998
ASGN|<fbsym>FBgn0001234==Hsr&ohgr;</fbsym>

REFDSR
{
RDID|FBrf0042120
|Ryseck et al.
|1985
RNAT|mRNA
CC|1.3 and 2.0 kb <fbsym>Hsr&ohgr;</fbsym> mRNAs are detected in the polyA<up>+</up> mRNA of
| heat shocked 2-4 day old adult flies. A probe specific to the repeat region
| hybridizes to a mixed population of RNAs in the polyA<up>-</up> fraction.
}

REFDSR
{
RDID|FBrf0053738
|Bendena et al.
|1991
RNAT|mRNA
BODP|<fbsym>Hsr&ohgr;</fbsym> expression is detected in all developmental stages and cell
| types with the exception of preblastoderm embryos and primary spermatocytes.
ASM|radioisotope in situ
CVBODP|radioisotope in situ
|<t> E | >= cellular blastoderm <a>  <p>
|<t> L-A <a>  <p>
}

REFDSR
{
RDID|FBrf0086552
|Mutsuddi and Lakhotia
|1995
RNAT|mRNA
BODP|<fbsym>Hsr&ohgr;</fbsym> transcripts are detected in all imaginal discs in late third
| instar larvae. Expression is also detected in the Malpighian tubules,
| proventriculus, gastric caecae, sections II and III of the midgut, and the
| hindgut. The larval brain hemispheres, especially the optic lobes, the
| ventral ganglion, and prothoracic glands also contain <fbsym>Hsr&ohgr;</fbsym>
| transcript. Expression is detected in both the cytoplasm and the nucleus of
| salivary gland cells; in polytene cells nuclear expression is stronger than
| cytoplasmic expression. In adult females, expression is detected in the
| nurse cell. In the male, expression is detected in late primary
| spermatocytes and maturing sperm, and in all accessory male reproductive
| organs except for the seminal vesicle. A <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter construct
| driven by a 844 bp <fbsym>Hsr&ohgr;</fbsym> promoter shows a similar expression pattern.
ASM|in situ
CVBODP|in situ
|<t> L | third instar <a> imaginal disc <p>
|<t> L | third instar <a> Malpighian tubule <p>
|<t> L | third instar <a> embryonic/larval proventriculus <p>
|<t> L | third instar <a> gastric caecum <p>
|<t> L | third instar <a> embryonic/larval hindgut <p>
|<t> L | third instar <a> embryonic/larval midgut | restricted <p>
|<t> L | third instar <a> larval ventral ganglion <p>
|<t> L | third instar <a> prothoracic gland <p>
|<t> L | third instar <a> larval optic lobe <p>
|<t> L | third instar <a> embryonic/larval salivary gland <p>
|<t> O <a> nurse cell <p>
|<t> S <a> testis | restricted <p>
|<t> A | male <a> male reproductive system | restricted <p>
}

REF
{
REFM|FBrf0042120
|Ryseck et al.
|1985
REFM|FBrf0053738
|Bendena et al.
|1991
REFM|FBrf0086552
|Mutsuddi and Lakhotia
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003297	SYM 1 Lam<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 31 Dec 1998	RESZ 578
ID|FBtr0003297
SYM|Lam<up>+</up>R
ASAL|<fbsym>FBal0067976==Lam<up>+</up></fbsym>
DT|31 Dec 1998
|31 Dec 1998
ASGN|<fbsym>FBgn0002525==Lam</fbsym>

REFDSR
{
RDID|FBrf0084310
|Riemer et al.
|1995
RNAT|mRNA
BODP|Both <fbsym>FBgn0002525==Lam</fbsym> transcripts are detected from 0-3 hr of embryogenesis onwards.
| Expression decreases after larval stages. <fbsym>FBgn0002525==Lam</fbsym> transcripts are detected in
| all embryonic tissues.
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> E-A <a>  <p>
|in situ
|<t> E <a>  <p>
}

REF
{
REFM|FBrf0084310
|Riemer et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003309	SYM 1 Ecol\lacZ<up>ftz.PA</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 14 May 1999	RESZ 1504
ID|FBtr0003309
SYM|Ecol\lacZ<up>ftz.PA</up>RA
SYN|lacZ<up>ftz.PA</up>RA
ASAL|<fbsym>FBal0041450==Ecol\lacZ<up>ftz.PA</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBtp0000174==P{ftz/lacA}</fbsym>
|<fbsym>FBms0000199==ftz::lacZ_4.5(Ba,u)</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0042045
|Hiromi et al.
|1985
RNAT|mRNA
BODP|In gastrulating embryos, two weak stripes observed anterior to the cephalic
| furrow (unlike wild-type <fbsym>FBgn0001077==ftz</fbsym> pattern). Observed stripes in epidermis
| correspond to parasegments, not segments. Neural expression not observed.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=6 <a>  <p> pair-rule
|<t> E | stage >=13 <a> epidermis <p> pair-rule
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
CC|Corresponds to "zebra element."
}

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm, but
| characteristic <fbsym>FBgn0001077==ftz</fbsym> expression in the ectoderm is greatly reduced.
|  Expressed in even parasegments. In later embryos, no expression observed
| in the CNS.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> mesoderm <p> pair rule
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0042045
|Hiromi et al.
|1985
REFM|FBrf0045785
|Hiromi and Gehring
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003310	SYM 1 Ecol\lacZ<up>ftz.PB</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 28 Jul 1999	RESZ 2234
ID|FBtr0003310
SYM|Ecol\lacZ<up>ftz.PB</up>RA
SYN|lacZ<up>ftz.PB</up>RA
ASAL|<fbsym>FBal0041451==Ecol\lacZ<up>ftz.PB</up></fbsym>
DT|28 Jul 1999
|31 Dec 1998
ID2|FBtr0004332
ASTP|<fbsym>FBtp0000175==P{ftz/lacB}</fbsym>
|<fbsym>FBms0000203==ftz::lacZ_6.8(Xb,u)</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0042045
|Hiromi et al.
|1985
RNAT|mRNA
BODP|In gastrulating embryos, two weaker stripes observed anterior to the
| cephalic furrow (unlike wild-type <fbsym>FBgn0001077==ftz</fbsym> pattern). During mid-embryogenesis
| expression also observed in pairs of large cells; assumed to be
| neuroblasts. Expression throughoutthe ventral nerve cord (not in pair-rule
| pattern). Very weak epidermal expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=6 <a>  <p> pair-rule
|<t> E | stage >=11 <a> neuroblast | restricted <p>
|<t> E | stage >=13 <a> ventral nerve cord | segmentally repeated pattern <p>
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
CC|Corresponds to the "zebra element" plus the "neurogenic element."
}

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm, but
| characteristic <fbsym>FBgn0001077==ftz</fbsym> expression in the ectoderm is greatly reduced.
|  Expressed in even parasegments. In later embryos, expression is observed
| in the CNS.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> mesoderm <p> pair rule
|<t> E | late <a> embryonic central nervous system <p>
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REFDSR
{
RDID|FBrf0053769
|Goriely et al.
|1991
RNAT|mRNA
BODP|Expression in epidermis in a weak striped pattern.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> epidermis | segmentally repeated pattern <p>
|<t> E <a> ventral nerve cord | segmentally repeated pattern <p>
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0042045
|Hiromi et al.
|1985
REFM|FBrf0045785
|Hiromi and Gehring
|1987
REFM|FBrf0053769
|Goriely et al.
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003311	SYM 1 Ecol\lacZ<up>ftz.PC</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 4	DT 1 22 Dec 2000	RESZ 3063
ID|FBtr0003311
SYM|Ecol\lacZ<up>ftz.PC</up>RA
SYN|Ecol\lacZ<up>ftz.PC</up>R
|lacZ<up>ftz.PC</up>RA
|unnamed
ASAL|<fbsym>FBal0041452==Ecol\lacZ<up>ftz.PC</up></fbsym>
DT|22 Dec 2000
|31 Dec 1998
ID2|FBtr0005403
ASTP|<fbsym>FBtp0000176==P{ftz/lacC}</fbsym>
|<fbsym>FBms0000207==ftz::lacZ_10.3(K,u)</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0042045
|Hiromi et al.
|1985
RNAT|mRNA
BODP|In gastrulating embryos, the first stripe is posterior to the cephalic
| furrow. Seven stripes observed; most posterior stripe thicker and
| occasionally resolves as two stripes. During mid-embryogenesis expression
| also observed in pairs of large cells; assumed to be neuroblasts.  The most
| conspicuous of these pairs flank the ventral midline, one pair per segment.
| Observed stripes in epidermis correspond to parasegments, not segments.
| Expression throughout the ventral nerve cord (not in pair-rule pattern).
ASM|radioisotope in situ
|transcript distribution deduced from reporter protein
CVBODP|radioisotope in situ
|<t> E | stage >=4 <a>  <p> pair-rule
|transcript distribution deduced from reporter protein
|<t> E | stage >=6 <a>  <p> pair-rule
|<t> E | stage >=11 <a> neuroblast | restricted <p>
|<t> E | stage >=13 <a> epidermis <p> pair-rule
|<t> E |stage >=13 <a> ventral nerve cord | segmentally repeated pattern <p>
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
CC|Corresponds to the "zebra element" plus the "neurogenic element" plus the
| "upstream element," and appears to duplicate the wild-type <fbsym>FBgn0001077==ftz</fbsym> expression pattern.
}

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm and
| ectoderm, in even parasegments. In later embryos, expression is observed in
| the CNS. Expression pattern characteristic of that observed for <fbsym>FBgn0001077==ftz</fbsym>.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> ectoderm <p> pair rule
|<t> E | mid <a> mesoderm <p> pair rule
|<t> E | late <a> embryonic central nervous system <p>
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REFDSR
{
RDID|FBrf0049619
|Tremml and Bienz
|1989
RNAT|mRNA
BODP|<fbsym>FBgn0001077==ftz</fbsym> is expressed in alternating parasegments in the germ band retracted
| embryo between parasgements 2 and 12.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 13-14 <a> parasegment 2 <p>
|<t> E | stage 13-14 <a> parasegment 4 <p>
|<t> E | stage 13-14 <a> parasegment 6 <p>
|<t> E | stage 13-14 <a> parasegment 8 <p>
|<t> E | stage 13-14 <a> parasegment 10 <p>
|<t> E | stage 13-14 <a> parasegment 12 <p>
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REFDSR
{
RDID|FBrf0055900
|Doe
|1992
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0042045
|Hiromi et al.
|1985
REFM|FBrf0045785
|Hiromi and Gehring
|1987
REFM|FBrf0049619
|Tremml and Bienz
|1989
REFM|FBrf0055900
|Doe
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003431	SYM 1 Ecol\lacZ<up>bab-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 610
ID|FBtr0003431
SYM|Ecol\lacZ<up>bab-P</up>RA
SYN|lacZ<up>bab-P</up>RA
ASAL|<fbsym>FBal0047612==Ecol\lacZ<up>bab-P</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTI|<fbsym>FBti0003110==P{A92}bab1<up>P</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0065404
|Godt et al.
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> antennal disc <p>
|<t> L | third instar <a> ventral thoracic disc <p>
ASCRGN|<fbsym>FBgn0004870==bab1</fbsym>
}

REF
{
REFM|FBrf0065404
|Godt et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003432	SYM 1 Ecol\lacZ<up>P\T.T:Khc</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 377
ID|FBtr0003432
SYM|Ecol\lacZ<up>P\T.T:Khc</up>RA
SYN|lacZ<up>P\T.T:Khc</up>RA
ASAL|<fbsym>FBal0038885==Ecol\lacZ<up>P\T.T:Khc</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0073174
|Giniger et al.
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0073174
|Giniger et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003714	SYM 1 Ecol\lacZ<up>ftz.PG</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 864
ID|FBtr0003714
SYM|Ecol\lacZ<up>ftz.PG</up>RA
SYN|lacZ<up>ftz.PG</up>RA
ASAL|<fbsym>FBal0041456==Ecol\lacZ<up>ftz.PG</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBtp0000248==P{ftz/lacG}</fbsym>
|<fbsym>FBmc0000431==pP{ftz/lacG}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm, but
| characteristic <fbsym>FBgn0001077==ftz</fbsym> expression in the ectoderm is greatly reduced.
|  Expressed in even parasegments. In later embryos, no expression observed
| in the CNS.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> mesoderm <p> pair rule
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0045785
|Hiromi and Gehring
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003715	SYM 1 Ecol\lacZ<up>ftz.PD</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 810
ID|FBtr0003715
SYM|Ecol\lacZ<up>ftz.PD</up>RA
SYN|lacZ<up>ftz.PD</up>RA
ASAL|<fbsym>FBal0041453==Ecol\lacZ<up>ftz.PD</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBtp0000245==P{ftz/lacD}</fbsym>
|<fbsym>FBmc0000275==pP{ftz/lacD}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm and
| ectoderm, in even parasegments. In later embryos, expression is not
| observed in the CNS.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> ectoderm <p> pair rule
|<t> E | mid <a> mesoderm <p> pair rule
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0045785
|Hiromi and Gehring
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003716	SYM 1 Ecol\lacZ<up>ftz.PE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 810
ID|FBtr0003716
SYM|Ecol\lacZ<up>ftz.PE</up>RA
SYN|lacZ<up>ftz.PE</up>RA
ASAL|<fbsym>FBal0041454==Ecol\lacZ<up>ftz.PE</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBtp0000246==P{ftz/lacE}</fbsym>
|<fbsym>FBmc0000276==pP{ftz/lacE}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm and
| ectoderm, in even parasegments. In later embryos, expression is not
| observed in the CNS.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> ectoderm <p> pair rule
|<t> E | mid <a> mesoderm <p> pair rule
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0045785
|Hiromi and Gehring
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003719	SYM 1 Ecol\lacZ<up>ftz.PF</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 842
ID|FBtr0003719
SYM|Ecol\lacZ<up>ftz.PF</up>RA
SYN|lacZ<up>ftz.PF</up>RA
ASAL|<fbsym>FBal0041455==Ecol\lacZ<up>ftz.PF</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBtp0000247==P{ftz/lacF}</fbsym>
|<fbsym>FBmc0000277==pP{ftz/lacF}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0045785
|Hiromi and Gehring
|1987
RNAT|mRNA
BODP|In germ-band extended embryos, strong expression in the mesoderm; expression
| in the ectoderm is reduced. Expressed in even parasegments. In later
| embryos, no expression observed in the CNS.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a> ectoderm <p> pair rule
|<t> E | mid <a> mesoderm <p> pair rule
ASCRGN|<fbsym>FBgn0001077==ftz</fbsym>
}

REF
{
REFM|FBrf0045785
|Hiromi and Gehring
|1987
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003752	SYM 1 Ecol\lacZ<up>elav.PH</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 631
ID|FBtr0003752
SYM|Ecol\lacZ<up>elav.PH</up>RA
SYN|lacZ<up>elav.PH</up>RA
ASAL|<fbsym>FBal0047660==Ecol\lacZ<up>elav.PH</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBmc0000971==pP{elav-lacZ.H}</fbsym>
|<fbsym>FBtp0011922==P{elav-lacZ.H}</fbsym>
ASGN|<fbsym>FBgn0014445==Scer\GAL4</fbsym>
|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055679
|Panzer et al.
|1992
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=12 <a>  <p>
ASCRGN|<fbsym>FBgn0000570==elav</fbsym>
}

REF
{
REFM|FBrf0055679
|Panzer et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003756	SYM 1 Ecol\lacZ<up>otp.PW</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 14 May 1999	RESZ 781
ID|FBtr0003756
SYM|Ecol\lacZ<up>otp.PW</up>RA
SYN|lacZ<up>otp.PW</up>RA
ASAL|<fbsym>FBal0047852==Ecol\lacZ<up>otp.PW</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTP|<fbsym>FBtp0001574==P{HZ50PL-otp}</fbsym>
|<fbsym>FBmc0001458==pP{HZ50PL-otp}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058068
|Affolter et al.
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> anal pad <p>
|<t> E <a> embryonic/larval hindgut <p>
}

REFDSR
{
RDID|FBrf0086814
|Walldorf
|1996.5.20
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
ASCRGN|<fbsym>FBgn0015524==otp</fbsym>
}

REF
{
REFM|FBrf0058068
|Affolter et al.
|1993
REFM|FBrf0086814
|Walldorf
|1996.5.20
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003760	SYM 1 Ecol\lacZ<up>elav.PW</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 401
ID|FBtr0003760
SYM|Ecol\lacZ<up>elav.PW</up>RA
SYN|lacZ<up>elav.PW</up>RA
ASAL|<fbsym>FBal0043980==Ecol\lacZ<up>elav.PW</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0076147
|Gu et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
ASCRGN|<fbsym>FBgn0000570==elav</fbsym>
}

REF
{
REFM|FBrf0076147
|Gu et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003761	SYM 1 Ecol\lacZ<up>rp</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 719
ID|FBtr0003761
SYM|Ecol\lacZ<up>rp</up>RA
SYN|lacZ<up>rp</up>RA
ASAL|<fbsym>FBal0052248==Ecol\lacZ<up>rp</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTI|<fbsym>FBti0004027==P{KZ.TRAP}rp</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0083232
|Kolodziej et al.
|1995
RNAT|mRNA
BODP|In late embryos, &bgr;-gal signal observed in the a subset of longitudinal
| and commissural axons of the CNS, and in a subset of the segmental nerve
| motor axons of the PNS.
MRK|neuron
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic nervous system | restricted <p>
}

REF
{
REFM|FBrf0083232
|Kolodziej et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003765	SYM 1 Ecol\lacZ<up>AG</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 May 1999	RESZ 508
ID|FBtr0003765
SYM|Ecol\lacZ<up>AG</up>RA
SYN|lacZ<up>AG</up>RA
ASAL|<fbsym>FBal0047275==Ecol\lacZ<up>AG</up></fbsym>
DT|14 May 1999
|31 Dec 1998
ASTI|<fbsym>FBti0003750==P{lacW}AG</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0084424
|Sun et al.
|1995
RNAT|mRNA
BODP|In embryo, "patterned" expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a>  <p>
}

REF
{
REFM|FBrf0084424
|Sun et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003789	SYM 1 Ecol\lacZ<up>os-PD</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 1 Feb 2002	RESZ 748
ID|FBtr0003789
SYM|Ecol\lacZ<up>os-PD</up>RA
SYN|Ecol\lacZ<up>PD</up>RA
|lacZ<up>PD</up>RA
ASAL|<fbsym>FBal0047457==Ecol\lacZ<up>os-PD</up></fbsym>
DT|1 Feb 2002
|31 Dec 1998
ASTI|<fbsym>FBti0003758==P{lacW}PD</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0084424
|Sun et al.
|1995
RNAT|mRNA
BODP|In embryo, "patterned" expression.  In larva, <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in leg
| disc is relatively weak.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a>  <p>
|<t> L | third instar <a> eye disc | restricted <p>
|<t> L | third instar <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0084424
|Sun et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0003827	SYM 1 Gpdh<up>+</up>R	TRL 1 1.7	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 31 Dec 1998	RESZ 276
ID|FBtr0003827
SYM|Gpdh<up>+</up>R
ASAL|<fbsym>FBal0067849==Gpdh<up>+</up></fbsym>
DT|31 Dec 1998
|31 Dec 1998
ASGN|<fbsym>FBgn0001128==Gpdh</fbsym>

REFDSR
{
RDID|FBrf0044670
|Cook et al.
|1986
RNAT|mRNA
TRL|1.7 (northern blot)
}

REF
{
REFM|FBrf0044670
|Cook et al.
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004145	SYM 1 activin-&bgr;<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Apr 1999	RESZ 504
ID|FBtr0004145
SYM|activin-&bgr;<up>+</up>R
ASAL|<fbsym>FBal0090895==activin-&bgr;<up>+</up></fbsym>
DT|21 Apr 1999
|21 Apr 1999
ASGN|<fbsym>FBgn0024913==activin-&bgr;</fbsym>

REFDSR
{
RDID|FBrf0102959
|Kutty et al.
|1998
RNAT|mRNA
BODP|<fbsym>activin-&bgr;</fbsym> expression is detected in embryos, adults, and larvae.
ASM|northern blot
CVBODP|northern blot
|<t> E,L,A <a>  <p>
CC|Several bands are observed on Northern blots, and the largest is ~4 kb.
}

REF
{
REFM|FBrf0102959
|Kutty et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004161	SYM 1 plx<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Apr 1999	RESZ 450
ID|FBtr0004161
SYM|plx<up>+</up>R
ASAL|<fbsym>FBal0070898==plx<up>+</up></fbsym>
DT|21 Apr 1999
|21 Apr 1999
ASGN|<fbsym>FBgn0004879==plx</fbsym>

REFDSR
{
RDID|FBrf0105342
|Xu et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0004879==plx</fbsym> transcripts are expressed at high levels in adult flies, and at very
| low levels in other developmental stages.
ASM|northern blot
CVBODP|northern blot
|<t> A <a>  <p>
}

REF
{
REFM|FBrf0105342
|Xu et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004170	SYM 1 CaMKI<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Apr 1999	RESZ 415
ID|FBtr0004170
SYM|CaMKI<up>+</up>R
ASAL|<fbsym>FBal0075874==CaMKI<up>+</up></fbsym>
DT|21 Apr 1999
|21 Apr 1999
ASGN|<fbsym>FBgn0016126==CaMKI</fbsym>

REFDSR
{
RDID|FBrf0105342
|Xu et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0016126==CaMKI</fbsym> transcript is detected in adults, third instar larvae, and pupae.
ASM|northern blot
CVBODP|northern blot
|<t> P,L,A <a>  <p>
}

REF
{
REFM|FBrf0105342
|Xu et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004214	SYM 1 babo<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Apr 1999	RESZ 703
ID|FBtr0004214
SYM|babo<up>+</up>R
ASAL|<fbsym>FBal0066409==babo<up>+</up></fbsym>
DT|21 Apr 1999
|21 Apr 1999
ASGN|<fbsym>FBgn0011300==babo</fbsym>

REFDSR
{
RDID|FBrf0066967
|Wrana et al.
|1994
RNAT|mRNA
BODP|<fbsym>FBgn0011300==babo</fbsym> transcript is detected in nurse cells and oocytes of stage S10-S11
| egg chambers. In stage 14 embryos, <fbsym>FBgn0011300==babo</fbsym> transcript expression is uniform.
| Expression is also detected in third instar larval imaginal discs.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p>
|<t> O,A | stage S10-S11 <a> nurse cell <p>
|<t> O,A | stage S10-S11 <a> oocyte <p>
|<t> L | third instar <a> imaginal disc <p>
}

REF
{
REFM|FBrf0066967
|Wrana et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004228	SYM 1 CtBP<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 421
ID|FBtr0004228
SYM|CtBP<up>+</up>RA
SYN|CtBP-RA
ASAL|<fbsym>FBal0079492==CtBP<up>+</up></fbsym>
DT|21 Nov 2000
|22 Apr 1999
ASGN|<fbsym>FBgn0020496==CtBP</fbsym>
ASPP|<fbsym>FBpp0002620==CtBP<up>+</up>P386</fbsym>

REFDSR
{
RDID|FBrf0101970
|Nibu et al.
|1998
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0102176
|Poortinga et al.
|1998
RNAT|mRNA
}

REF
{
REFM|FBrf0101970
|Nibu et al.
|1998
REFM|FBrf0102176
|Poortinga et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004229	SYM 1 CtBP<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 327
ID|FBtr0004229
SYM|CtBP<up>+</up>RB
SYN|CtBP-RB
ASAL|<fbsym>FBal0079492==CtBP<up>+</up></fbsym>
DT|21 Nov 2000
|22 Apr 1999
ASGN|<fbsym>FBgn0020496==CtBP</fbsym>
ASPP|<fbsym>FBpp0002621==CtBP<up>+</up>P381</fbsym>

REFDSR
{
RDID|FBrf0102176
|Poortinga et al.
|1998
RNAT|mRNA
}

REF
{
REFM|FBrf0102176
|Poortinga et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004230	SYM 1 CtBP<up>+</up>RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 327
ID|FBtr0004230
SYM|CtBP<up>+</up>RC
SYN|CtBP-RC
ASAL|<fbsym>FBal0079492==CtBP<up>+</up></fbsym>
DT|21 Nov 2000
|22 Apr 1999
ASGN|<fbsym>FBgn0020496==CtBP</fbsym>
ASPP|<fbsym>FBpp0002622==CtBP<up>+</up>P459</fbsym>

REFDSR
{
RDID|FBrf0102176
|Poortinga et al.
|1998
RNAT|mRNA
}

REF
{
REFM|FBrf0102176
|Poortinga et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004231	SYM 1 CtBP<up>+</up>RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 325
ID|FBtr0004231
SYM|CtBP<up>+</up>RD
SYN|CtBP-RD
ASAL|<fbsym>FBal0079492==CtBP<up>+</up></fbsym>
DT|21 Nov 2000
|22 Apr 1999
ASGN|<fbsym>FBgn0020496==CtBP</fbsym>
ASPP|<fbsym>FBpp0002623==CtBP<up>+</up>PA</fbsym>

REFDSR
{
RDID|FBrf0102176
|Poortinga et al.
|1998
RNAT|mRNA
}

REF
{
REFM|FBrf0102176
|Poortinga et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004236	SYM 1 CtBP-R*	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 4 Feb 2000	RESZ 783
ID|FBtr0004236
SYM|CtBP-R*
ASAL|<fbsym>FBal0079492==CtBP<up>+</up></fbsym>
DT|4 Feb 2000
|22 Apr 1999
ASGN|<fbsym>FBgn0020496==CtBP</fbsym>

REFDSR
{
RDID|FBrf0102176
|Poortinga et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0020496==CtBP</fbsym> transcripts are detected in the germarium and in nurse cells
| throughout the early oogenic stages. They peak in stage S10 nurse cells.
| Transcripts are later deposited in the oocyte where they are ubiquitously
| distributed. They persist into early embryonic stages. Levels drop at
| gastrulation and are maintained at the lower level throughout embryogenesis.
ASM|in situ
CVBODP|in situ
|<t> O <a> germarium <p>
|<t> O <a> nurse cell <p>
|<t> O | stage >S10 <a> oocyte <p>
|<t> E <a>  <p>
}

REF
{
REFM|FBrf0102176
|Poortinga et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004373	SYM 1 Clk<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 27 Jun 1999	RESZ 264
ID|FBtr0004373
SYM|Clk<up>+</up>RB
ASAL|<fbsym>FBal0087184==Clk<up>+</up></fbsym>
DT|27 Jun 1999
|27 Jun 1999
ASGN|<fbsym>FBgn0023076==Clk</fbsym>

REFDSR
{
RDID|FBrf0102727
|Allada et al.
|1998
RNAT|mRNA
EXNSQ|4-8
}

REF
{
REFM|FBrf0102727
|Allada et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004380	SYM 1 Clk<up>+</up>RA	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 4 Jun 2001	RESZ 1209
ID|FBtr0004380
SYM|Clk<up>+</up>RA
SYN|Clk<up>+</up>R
ASAL|<fbsym>FBal0087184==Clk<up>+</up></fbsym>
DT|4 Jun 2001
|27 Jun 1999
ASGN|<fbsym>FBgn0023076==Clk</fbsym>
ASPP|<fbsym>FBpp0002642==Clk<up>+</up>P1023</fbsym>

REFDSR
{
RDID|FBrf0104403
|Bae et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0023076==Clk</fbsym> transcripts show circadian cycling with a fivefold peak-trough
| amplitude. Peak abundance occurs within several hours of the light-dark
| transition at (zeitgeber time) ZT0 and trough values occur around the
| dark-light transition at ZT12.This pattern is antiphase to that observed
| for <fbsym>FBgn0003068==per</fbsym> and <fbsym>FBgn0014396==tim</fbsym> RNAs. The pattern is maintained  in LD entrained flies
| for at least two days after being shifted to all dark. In arythmic <fbsym>FBgn0003068==per</fbsym>
| and <fbsym>FBgn0014396==tim</fbsym> mutants, the level of <fbsym>FBgn0023076==Clk</fbsym> RNA is similar to or lower than the
| trough values in wild type flies. Rapid changes in the temporal regulation
| of <fbsym>FBgn0023076==Clk</fbsym> RNA levels occur as a result of shifts in the timing of the
| light-dark cycle.
ASM|northern blot
}

REF
{
REFM|FBrf0104403
|Bae et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004423	SYM 1 Adh<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 27 Jun 1999	RESZ 627
ID|FBtr0004423
SYM|Adh<up>+</up>R
ASAL|<fbsym>FBal0066361==Adh<up>+</up></fbsym>
DT|27 Jun 1999
|27 Jun 1999
ASGN|<fbsym>FBgn0000055==Adh</fbsym>
ASPP|<fbsym>FBpp0000053==Adh<up>+</up>P256</fbsym>

REFDSR
{
RDID|FBrf0038993
|Benyajati et al.
|1983
RNAT|mRNA
VPR|experimental
ASM|northern blot
CVBODP|northern blot
|<t> A <a>  <p>
CC|The longer <fbsym>FBtr0004423==Adh<up>+</up>R</fbsym> transcripts (ranging from 1150 to
| 2000 base pairs) are specifically detected in RNA from adult tissue.  These
| longer RNAs are due to the use of an alternative promoter in adult flies.
}

REF
{
REFM|FBrf0038993
|Benyajati et al.
|1983
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004426	SYM 1 &agr;-Spec-RA	TRL 1 9.0	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 4	DT 1 4 Feb 2000	RESZ 609
ID|FBtr0004426
SYM|&agr;-Spec-RA
SYN|alpha-Spec<up>+</up>R9.0
ASAL|<fbsym>FBal0066293==&agr;-Spec<up>+</up></fbsym>
DT|4 Feb 2000
|27 Jun 1999
ARGS|FBgn0003470
ASGN|<fbsym>FBgn0003470==&agr;-Spec</fbsym>
ASPP|<fbsym>FBpp0002678==&agr;-Spec-P1</fbsym>

REFDSR
{
RDID|FBrf0046640
|Byers et al.
|1987
RNAT|mRNA
TRL|9.0 (northern blot)
}

REFDSR
{
RDID|FBrf0050176
|Pesacreta et al.
|1989
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0068573
|Lee et al.
|1993
RNAT|mRNA
}

REF
{
REFM|FBrf0046640
|Byers et al.
|1987
REFM|FBrf0050176
|Pesacreta et al.
|1989
REFM|FBrf0068573
|Lee et al.
|1993
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004734	SYM 1 Ecol\lacZ<up>dac-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 663
ID|FBtr0004734
SYM|Ecol\lacZ<up>dac-P</up>RA
ASAL|<fbsym>FBal0041048==Ecol\lacZ<up>dac-P</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTI|<fbsym>FBti0003463==P{PZ}dac<up>P</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>
SK|FBst0012047
|P{ry[+t7.2]=PZ}dac[P]/CyO; ry[506]
|Total=1

REFDSR
{
RDID|FBrf0083714
|Meister and Braun
|1995.10
RNAT|mRNA
BODP|In third instar larva, expression in imaginal discs (which discs not specified).
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar stage 2 <a> imaginal disc <p>
}

REF
{
REFM|FBrf0083714
|Meister and Braun
|1995.10
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004786	SYM 1 Ecol\lacZ<up>Bsg-gel</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 2 May 2005	RESZ 701
ID|FBtr0004786
SYM|Ecol\lacZ<up>Bsg-gel</up>RA
SYN|Ecol\lacZ<up>gel-1</up>RA
ASAL|<fbsym>FBal0041477==Ecol\lacZ<up>Bsg-gel</up></fbsym>
DT|2 May 2005
|13 Sep 1999
ASTI|<fbsym>FBti0003499==P{PZ}Bsg<up>gel</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0083714
|Meister and Braun
|1995.10
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar stage 2 <a> embryonic/larval proventriculus <p>
|<t> L | third instar stage 2 <a> embryonic/larval midgut | restricted <p>
|<t> L | third instar stage 2 <a> Malpighian tubule <p>
}

REF
{
REFM|FBrf0083714
|Meister and Braun
|1995.10
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004906	SYM 1 Ecol\lacZ<up>kni.&PSgr;</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 1003
ID|FBtr0004906
SYM|Ecol\lacZ<up>kni.&PSgr;</up>RA
SYN|Ecol\lacZ<up>kni.Psi</up>R
|unnamed
ASAL|<fbsym>FBal0093867==Ecol\lacZ<up>kni.&PSgr;</up></fbsym>
DT|25 Jan 2001
|13 Sep 1999
ASTP|<fbsym>FBtp0010142==P{kni-lacZ.&PSgr;}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0105200
|Burz et al.
|1998
RNAT|mRNA
BODP|Expression of the <fbsym>Ecol\lacZ<up>kni.&PSgr;</up></fbsym> construct, is
| extended more posteriorly and extends in a gradient from the anterior to
| the posterior, reaching the posterior pole of the embryo.  The "weak" <fbsym>FBgn0000166==bcd</fbsym>
| binding sites arereplaced with "strong" binding sites in this construct
| compared to the endogenous sites.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 3 <a>  <p> 0-100% egg length
|<t> E | stage 3 <a> <p> anterior-posterior gradient
ASCRGN|<fbsym>FBgn0001320==kni</fbsym>
}

REF
{
REFM|FBrf0105200
|Burz et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004908	SYM 1 Ecol\lacZ<up>ptc.PG</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 779
ID|FBtr0004908
SYM|Ecol\lacZ<up>ptc.PG</up>RA
SYN|Ecol\lacZ<up>ptc.PG</up>R
|unnamed
ASAL|<fbsym>FBal0047864==Ecol\lacZ<up>ptc.PG</up></fbsym>
DT|25 Jan 2001
|13 Sep 1999
ASTP|<fbsym>FBtp0005693==P{ptcA-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0105927
|Schweizer and Basler
|1998
BODP|<fbsym>FBgn0003892==ptc</fbsym>-<fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression pattern in the wing disc is
| resticted to a stripe of cells along the antrior-posterior compartment boundary.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> wing disc | restricted <p>
ASCRGN|<fbsym>FBgn0003892==ptc</fbsym>
}

REF
{
REFM|FBrf0105927
|Schweizer and Basler
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004916	SYM 1 Ecol\lacZ<up>awd.PT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 1324
ID|FBtr0004916
SYM|Ecol\lacZ<up>awd.PT</up>RA
SYN|Ecol\lacZ<up>awd.PT</up>R
|unnamed
ASAL|<fbsym>FBal0040833==Ecol\lacZ<up>awd.PT</up></fbsym>
DT|25 Jan 2001
|13 Sep 1999
ASTP|<fbsym>FBtp0004004==P{arr-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058051
|Timmons et al.
|1993
BODP|The <fbsym>FBgn0000150==awd</fbsym> reporter construct line <fbsym>FBal0040833==Ecol\lacZ<up>awd.PT</up></fbsym>
| drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression according to the <fbsym>FBgn0000150==awd</fbsym> expression pattern.
|  Expression is detected in the wing pouch region of the wing discs, with
| highest levels detected in third instar larvae.  The <fbsym>FBgn0000150==awd</fbsym> reporter
| construct is also expressed in the pupal wing and is restricted to the
| follicel cells in developing oocytes.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | second instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> larval brain <p>
|<t> P <a> dorsal mesothoracic disc <p>
|<t> P <a> larval brain <p>
|<t> O  <a>  follicle cell <p>
ASCRGN|<fbsym>FBgn0000150==awd</fbsym>
}

REF
{
REFM|FBrf0058051
|Timmons et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004923	SYM 1 bcd<up>T:Ecol\lacZ</up>R	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jan 2000	RESZ 1702
ID|FBtr0004923
SYM|bcd<up>T:Ecol\lacZ</up>R
SYN|bcd+lacZ
ASAL|<fbsym>FBal0090466==bcd<up>T:Ecol\lacZ</up></fbsym>
DT|5 Jan 2000
|13 Sep 1999
ASTP|<fbsym>FBtp0009554==P{bcd+lacZ}</fbsym>

REFDSR
{
RDID|FBrf0068584
|MacDonald et al.
|1993
RNAT|mRNA
BODP|The <fbsym>FBal0090466==bcd<up>T:Ecol\lacZ</up></fbsym> transcript is localized and
| accumulates at the anterior cortex of the oocyte very early on during
| oogenesis.  As oogenesis proceeds, the transcript continues to accumulate
| and little or no diffusion of signal isobserved.  In the early embryo the
| transcript remains localized anteriorly, reaching up to 20% egg length.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> O | stage 5-6 <a> oocyte | anterior <p>
|<t> O | stage 9 <a> oocyte | anterior <p>
|<t> O | stage 10-11 <a> oocyte | anterior <p>
|<t> E | stage 2 <a> anterior <p> 10-20% egg length
ASCRGN|<fbsym>FBgn0000166==bcd</fbsym>
CC|The <fbsym>FBal0090466==bcd<up>T:Ecol\lacZ</up></fbsym> transcript recapitualtes wild
| type <fbsym>FBgn0000166==bcd</fbsym> expression patterns during oogenesis and early embryonic stages.
| In order to assess the role of the  <fbsym>FBgn0000166==bcd</fbsym> 3' UTR, a series of deletions
| were constructed and analyzed for thier ability to localize anteriorly
| during oogenesis and early embryonic stages.  One primary element
| responsible for early stages of <fbsym>FBgn0000166==bcd</fbsym> mRNA localization was identified and
| termed BLE (bcd localization element).  Two additional regions of the <fbsym>FBgn0000166==bcd</fbsym>
| 3'UTR were also identified.
}

REF
{
REFM|FBrf0068584
|MacDonald et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004975	SYM 1 yin<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 678
ID|FBtr0004975
SYM|yin<up>+</up>R
ASAL|<fbsym>FBal0075448==yin<up>+</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASGN|<fbsym>FBgn0015565==yin</fbsym>

REFDSR
{
RDID|FBrf0104507
|Roman et al.
|1998
RNAT|mRNA
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> A <a> adult head <p>
|in situ
|<t> A <a> adult midgut | restricted <p>
|<t> A <a> posterior adult hindgut | restricted <p>
|<t> A <a> oviduct <p>
|<t> A <a> seminal receptacle <p>
|<t> A <a> spermathecal duct <p>
|<t> A,O | stage >=S11 <a> oocyte <p>
|<t> A,O | stage S10-S11 <a> nurse cell <p>
|<t> A,S <a> primary spermatocyte cyst | restricted <p>
|<t> E | <3 hr <a> <p>
}

REF
{
REFM|FBrf0104507
|Roman et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004977	SYM 1 Dredd<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 1534
ID|FBtr0004977
SYM|Dredd<up>+</up>R
ASAL|<fbsym>FBal0079409==Dredd<up>+</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASGN|<fbsym>FBgn0020381==Dredd</fbsym>

REFDSR
{
RDID|FBrf0104738
|Chen et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0020381==Dredd</fbsym> transcript is detected in very early embryos. Until stage 10-11, low
| levels of ubiquitous expression are detected. During and after stage 11,
| pattern of <fbsym>FBgn0020381==Dredd</fbsym> expression corresponds to the pattern of Programmed Cell
| Death (PCD) in the embryo. Expression is detected in the subepidermis of
| gnathal segments, clypeo-labrum, and the caudal tip of the retracting germ
| band. At stage 13, expression is detected around the supraesophageal
| ganglia and in the dorsal ridge. Expression at stage 16 is concentrated at
| the central nervous system, throughout the brain and ventral nerve cord.
| During oogenesis, <fbsym>FBgn0020381==Dredd</fbsym> transcript is detected in  nurse cells and
| oocytes at stage S10. High levels are detected in nurse cells in stage S12-S13.
ASM|in situ
CVBODP|in situ
|<t> E | stage <=10 <a>  <p> ubiquitous
|<t> E | stage 11 <a> embryonic gnathal segment | restricted <p>
|<t> E | stage 11 <a> embryonic labral segment | restricted <p>
|<t> E | stage 13 <a> larval ventral ganglion | presumptive <p>
|<t> E | stage 13 <a> dorsal ridge <p>
|<t> E | stage 16 <a> embryonic central nervous system <p>
|<t> O,A | stage S10-S13 <a> nurse cell <p>
|<t> O,A | stage S10 <a> oocyte <p>
}

REF
{
REFM|FBrf0104738
|Chen et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0004981	SYM 1 Smox<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 1108
ID|FBtr0004981
SYM|Smox<up>+</up>R
ASAL|<fbsym>FBal0094201==Smox<up>+</up></fbsym>
DT|21 Nov 2000
|13 Sep 1999
ASGN|<fbsym>FBgn0025800==Smox</fbsym>
ASPP|<fbsym>FBpp0002722==Smox<up>+</up>P484</fbsym>

REFDSR
{
RDID|FBrf0105246
|Henderson and Andrew
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0025800==Smox</fbsym> transcripts are detected throughout embryogenesis.
ASM|in situ
|northern blot
CVBODP|in situ
|<t> E <a>  <p>
|northern blot
|<t> E-A <a>  <p>
}

REFDSR
{
RDID|FBrf0106271
|Brummel et al.
|1999
RNAT|mRNA
BODP|High levels of <fbsym>FBgn0025800==Smox</fbsym> transcript are detected in the early embryo.
| Mesodermal expression is detected starting with early gastrulation, and
| continues through embryogenesis. Larval expression is high in imaginal
| discs and in the optic proliferation centers of the brain lobes.
ASM|in situ
CVBODP|in situ
|<t> E | <blastoderm <a>  <p>
|<t> E | >=gastrula <a> mesoderm <p>
|<t> L | third instar <a> larval brain | restricted <p>
|<t> L | third instar <a> imaginal disc <p>
}

REF
{
REFM|FBrf0105246
|Henderson and Andrew
|1998
REFM|FBrf0106271
|Brummel et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005007	SYM 1 Ddc<up>+</up>R	TRL 1 -	ASM 1 dissected tissue	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 722
ID|FBtr0005007
SYM|Ddc<up>+</up>R
ASAL|<fbsym>FBal0066711==Ddc<up>+</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASGN|<fbsym>FBgn0000422==Ddc</fbsym>

REFDSR
{
RDID|FBrf0045095
|Spencer et al.
|1986
RNAT|mRNA
BODP|In dissected tissue RNA dot blots, <fbsym>FBgn0000422==Ddc</fbsym> transcript levels are higher in
| adult heads and thoraces. Transcript is detected in testes and may be due
| to the testes-specific <fbsym>FBgn0000422==Ddc</fbsym> transcript. <fbsym>FBgn0000422==Ddc</fbsym> transcript levels arevery
| low in ovaries.
ASM|dissected tissue
CVBODP|dissected tissue
|<t> A <a> adult head <p>
|<t> A <a> adult thorax <p>
|<t> A <a> testis <p>
|<t> A <a> ovary <p>
}

REF
{
REFM|FBrf0045095
|Spencer et al.
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005024	SYM 1 Ecol\lacZ<up>sna.HR-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 776
ID|FBtr0005024
SYM|Ecol\lacZ<up>sna.HR-P</up>RA
ASAL|<fbsym>FBal0041970==Ecol\lacZ<up>sna.HR-P</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTP|<fbsym>FBtp0004467==P{HR-p}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056108
|Ip et al.
|1992
RNAT|mRNA
BODP|A 400bp fragment from -2 to -1.6kb of the <fbsym>FBgn0003448==sna</fbsym> promoter plus the proximal
| 250bp of the <fbsym>FBgn0003448==sna</fbsym> promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> gene expression in the poles
| of the embryo.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14 <a>  <p> terminal
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0056108
|Ip et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005025	SYM 1 Ecol\lacZ<up>sna.HR</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 711
ID|FBtr0005025
SYM|Ecol\lacZ<up>sna.HR</up>RA
ASAL|<fbsym>FBal0041971==Ecol\lacZ<up>sna.HR</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTP|<fbsym>FBtp0004468==P{HR}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056108
|Ip et al.
|1992
RNAT|mRNA
BODP|A 400bp fragment from -2 to -1.6kb of the <fbsym>FBgn0003448==sna</fbsym> promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym>
| gene expression in the poles of the embryos at low levels.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14 <a>  <p> terminal
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0056108
|Ip et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005026	SYM 1 Ecol\lacZ<up>sna.RE-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 796
ID|FBtr0005026
SYM|Ecol\lacZ<up>sna.RE-P</up>RA
ASAL|<fbsym>FBal0041878==Ecol\lacZ<up>sna.RE-P</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTP|<fbsym>FBtp0004433==P{RE-p}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056108
|Ip et al.
|1992
RNAT|mRNA
BODP|A 300bp fragment from -1.6 to -1.3kb of the <fbsym>FBgn0003448==sna</fbsym> promoter plus the proximal
| 250bp of the <fbsym>FBgn0003448==sna</fbsym> promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> gene expression in the
| ventral-most 10-12 cells of the embryo.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14 <a>  <p> ventral
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0056108
|Ip et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005027	SYM 1 Ecol\lacZ<up>sna.RP-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 877
ID|FBtr0005027
SYM|Ecol\lacZ<up>sna.RP-P</up>RA
ASAL|<fbsym>FBal0041973==Ecol\lacZ<up>sna.RP-P</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTP|<fbsym>FBtp0004470==P{RP-p}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056108
|Ip et al.
|1992
RNAT|mRNA
BODP|A 600bp fragment from -1.6 to -1.0kb of the <fbsym>FBgn0003448==sna</fbsym> promoter plus the proximal
| 250bp of the <fbsym>FBgn0003448==sna</fbsym> promoter drives <fbsym>FBgn0014447==Ecol\lacZ</fbsym> gene expression in a strong
| uniform pattern in the ventralmost 12-14 cells. of the nuclear cycle 14
| embryo. No staining is seen in the poles.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14 <a>  <p> ventral
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0056108
|Ip et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005030	SYM 1 Ecol\lacZ<up>sna.RP</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 756
ID|FBtr0005030
SYM|Ecol\lacZ<up>sna.RP</up>RA
ASAL|<fbsym>FBal0041976==Ecol\lacZ<up>sna.RP</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTP|<fbsym>FBtp0004473==P{RP}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056108
|Ip et al.
|1992
RNAT|mRNA
BODP|A 600bp fragment from -1.6 to -1.0kb of the <fbsym>FBgn0003448==sna</fbsym> promoter drives
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in a sporadic pattern in the ventralmost regions of
| the nuclear cleavage cycle 14 embryo.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14 <a>  <p> ventral
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0056108
|Ip et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005031	SYM 1 Ecol\lacZ<up>sna.TD-P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 841
ID|FBtr0005031
SYM|Ecol\lacZ<up>sna.TD-P</up>RA
ASAL|<fbsym>FBal0041977==Ecol\lacZ<up>sna.TD-P</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASTP|<fbsym>FBtp0004474==P{TD-p}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0056108
|Ip et al.
|1992
RNAT|mRNA
BODP|A 400bp fragment from -1.9 to -1.5kb of the <fbsym>FBgn0003448==sna</fbsym> promoter and the proximal
| 250bp of the <fbsym>FBgn0003448==sna</fbsym>  promoter drives strong <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression in the
| poles and in a broad ventral region.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14 <a>  <p> ventral
|<t> E | embryonic cycle 14 <a>  <p> terminal
ASCRGN|<fbsym>FBgn0003448==sna</fbsym>
}

REF
{
REFM|FBrf0056108
|Ip et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005051	SYM 1 GluCl&agr;<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 13 Sep 1999	RESZ 330
ID|FBtr0005051
SYM|GluCl&agr;<up>+</up>R
ASAL|<fbsym>FBal0090925==GluCl&agr;<up>+</up></fbsym>
DT|13 Sep 1999
|13 Sep 1999
ASGN|<fbsym>FBgn0024963==GluCl&agr;</fbsym>
ASPP|<fbsym>FBpp0002756==GluCl&agr;<up>+</up>P456</fbsym>

REFDSR
{
RDID|FBrf0089625
|Cully et al.
|1996
RNAT|mRNA
}

REF
{
REFM|FBrf0089625
|Cully et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005075	SYM 1 Cct&ggr;-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 4 Feb 2000	RESZ 307
ID|FBtr0005075
SYM|Cct&ggr;-RA
ASAL|<fbsym>FBal0075092==Cct&ggr;<up>+</up></fbsym>
DT|4 Feb 2000
|7 Oct 1999
ASGN|<fbsym>FBgn0015019==Cct&ggr;</fbsym>
ASPP|<fbsym>FBpp0002636==Cct&ggr;-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,4
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005108	SYM 1 &agr;-Adaptin-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 4 Feb 2000	RESZ 345
ID|FBtr0005108
SYM|&agr;-Adaptin-RA
ASAL|<fbsym>FBal0075450==&agr;-Adaptin<up>+</up></fbsym>
DT|4 Feb 2000
|7 Oct 1999
ARGS|FBgn0015567
ASGN|<fbsym>FBgn0015567==&agr;-Adaptin</fbsym>
ASPP|<fbsym>FBpp0001886==&agr;-Adaptin-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|,,,,,,,,
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005148	SYM 1 Ecol\lacZ<up>grh.NB</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 3 Nov 1999	RESZ 557
ID|FBtr0005148
SYM|Ecol\lacZ<up>grh.NB</up>RA
ASAL|<fbsym>FBal0091323==Ecol\lacZ<up>grh.NB</up></fbsym>
DT|3 Nov 1999
|3 Nov 1999
ASTP|<fbsym>FBtp0009695==P{grh-lacZ.NB}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0103505
|Prokop et al.
|1998
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> neuroblast <of> embryonic central nervous system <p>
ASCRGN|<fbsym>FBgn0004586==grh</fbsym>
}

REF
{
REFM|FBrf0103505
|Prokop et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005150	SYM 1 Ecol\lacZ<up>elav-E</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 3 Nov 1999	RESZ 1049
ID|FBtr0005150
SYM|Ecol\lacZ<up>elav-E</up>RA
ASAL|<fbsym>FBal0098864==Ecol\lacZ<up>elav-E</up></fbsym>
DT|3 Nov 1999
|3 Nov 1999
ASTI|<fbsym>FBti0013266==P{lacW}elav<up>E</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053818
|Prokop and Technau
|1991
RNAT|mRNA
BODP|In third instar larva, appears to be expressed in all cells of the CNS.
| (Note:expression of <fbsym>FBti0013266==P{lacW}elav<up>E</up></fbsym> and <fbsym>FBti0013273==P{lacW}B1</fbsym>
| assayed together, in strain homozygous for both insertions.)
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar larva stage 2 <a> larval central nervous system <p>
}

REFDSR
{
RDID|FBrf0103505
|Prokop et al.
|1998
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> embryonic nervous system <p>
}

REF
{
REFM|FBrf0053818
|Prokop and Technau
|1991
REFM|FBrf0103505
|Prokop et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005171	SYM 1 Ecol\lacZ<up>dj.PS</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 3 Nov 1999	RESZ 854
ID|FBtr0005171
SYM|Ecol\lacZ<up>dj.PS</up>RA
ASAL|<fbsym>FBal0061148==Ecol\lacZ<up>dj.PS</up></fbsym>
DT|3 Nov 1999
|3 Nov 1999
ASTP|<fbsym>FBtp0008066==P{dj-lacZ.S}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0096230
|Santel et al.
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0014447==Ecol\lacZ</fbsym> mRNA detected in both premeiotic and postmeiotic cells; &bgr;gal
| staining observed only in postmeiotic cells.  Since the larval testis
| contains only premeiotic cells, expression is observed only in the case of
| the RNA in situ, notin the case of &bgr;gal staining.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | male <a> testis <p>
|<t> S,A | male <a> testis <p>
ASCRGN|<fbsym>FBgn0019828==dj</fbsym>
}

REF
{
REFM|FBrf0096230
|Santel et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005210	SYM 1 Ecol\lacZ<up>en.F</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 18 Jul 2001	RESZ 1444
ID|FBtr0005210
SYM|Ecol\lacZ<up>en.F</up>RA
SYN|Ecol\lacZ<up>en.F</up>
|lacZ<up>en.P</up>RA
ASAL|<fbsym>FBal0041268==Ecol\lacZ<up>en.F</up></fbsym>
DT|18 Jul 2001
|4 Nov 1999
ID2|FBtr0001503
ASTP|<fbsym>FBtp0000317==P{enF}</fbsym>
|<fbsym>FBmc0000341==pP{enF}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  By germ-band retraction stage,
| expression in stripes has disappeared, but fat body and neural expression persists.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REFDSR
{
RDID|FBrf0057329
|Dougan and DiNardo
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0000577==en</fbsym> is expressed in stripes roughly two to three cells wide.  Anterior <fbsym>FBgn0000577==en</fbsym>
| cells underlie smooth cuticle, whereas the posterior <fbsym>FBgn0000577==en</fbsym> cells underlie
| first row denticles.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
REFM|FBrf0057329
|Dougan and DiNardo
|1992
REFM|FBrf0105495
|FlyBase
|1992-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005244	SYM 1 Mhc-RN	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 4 Feb 2000	RESZ 302
ID|FBtr0005244
SYM|Mhc-RN
ASAL|<fbsym>FBal0068063==Mhc<up>+</up></fbsym>
DT|4 Feb 2000
|10 Dec 1999
ASGN|<fbsym>FBgn0002741==Mhc</fbsym>
ASPP|<fbsym>FBpp0002869==Mhc-P14</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|22,23,24,26,27,28,29
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005397	SYM 1 &agr;Try-RA	TRL 1 0.78	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 26 Dec 2000	RESZ 840
ID|FBtr0005397
SYM|&agr;Try-RA
SYN|alphaTry-R
|alphaTry<up>+</up>R0.8
|unnamed
ASAL|<fbsym>FBal0074447==&agr;Try<up>+</up></fbsym>
DT|26 Dec 2000
|5 Jan 2000
ARGS|FBgn0003863
ASGN|<fbsym>FBgn0003863==&agr;Try</fbsym>
ASPP|<fbsym>FBpp0003022==&agr;Try-P</fbsym>
|<fbsym>FBpp0003080==&agr;Try-P1</fbsym>

REFDSR
{
RDID|FBrf0043386
|Davis et al.
|1985
TRL|0.78 (nb, sa)
BODP|<fbsym>&agr;Try</fbsym> transcript expression apprears to be limited to the larval midgut.
ASM|in situ
|northern blot
CVBODP|in situ
|<t> L | third instar <a> embryonic/larval gut | restricted <p>
|northern blot
|<t> A <a> <p>
CC|The size of the transcript was first determined by r-loop mapping, and
| norhtern blot and sequence analysis confirm the approximate size of the transcript.
}

REF
{
REFM|FBrf0043386
|Davis et al.
|1985
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005407	SYM 1 Ecol\lacZ<up>Ubx.bx</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 12 Sep 2000	RESZ 2593
ID|FBtr0005407
SYM|Ecol\lacZ<up>Ubx.bx</up>RA
SYN|Ecol\lacZ<up>Ubx.bx</up>
|unnamed
|bx-Ubx-lacZ
ASAL|<fbsym>FBal0042160==Ecol\lacZ<up>Ubx.bx</up></fbsym>
DT|12 Sep 2000
|5 Jan 2000
ASTP|<fbsym>FBtp0004600==P{BRE-Ubx-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053871
|Qian et al.
|1991
RNAT|mRNA
BODP|The <fbsym>FBgn0003944==Ubx</fbsym>-<fbsym>FBgn0014447==Ecol\lacZ</fbsym> reporter construct
| <fbsym>FBal0042160==Ecol\lacZ<up>Ubx.bx</up></fbsym> drives expression in a pattern
| similar to endogenous <fbsym>FBgn0003944==Ubx</fbsym> expression. At the cellular blastoderm stage,
| it is expressed between 50% and 25% egg length in the posterior region of
| the embryo.  At the beginning of gastrulation, four stripes of expression
| begin to appear which are resovled into an pair-rule pattern in
| parasegments 6, 8, 10 and 12.  Later during gastrulation the anterior
| border of expression is parasegemtn 5. Expression is detected in bothe the
| ectoderm and visceral mesoderm of the embryo, and later in development
| slight expression in the ventral neurogenic region.
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 4 <a> <p> 25-50% egg length
|<t> E | stage 6 <a> ectoderm <of> parasegment 6-12 <p>
|<t> E | stage 6 <a> visceral mesoderm <of> parasegment 6-12 <p>
|<t> E | stage 10 <a> parasegment 6-12 <p>
|<t> E | stage 13 <a> parasegment 5-12 <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
CC|The expression pattern of <fbsym>FBal0042160==Ecol\lacZ<up>Ubx.bx</up></fbsym> in <fbsym>FBgn0001180==hb</fbsym>
| mutants is altered, where the anterior border of <fbsym>FBgn0003944==Ubx</fbsym> expression extends
| to 75% egg length, rather than 50%.  <fbsym>FBgn0001180==hb</fbsym> regulates the expression of <fbsym>FBgn0003944==Ubx</fbsym>
| through the bx regulatory region.  In addition to altered expression of
| <fbsym>FBal0042160==Ecol\lacZ<up>Ubx.bx</up></fbsym> in <fbsym>FBgn0001180==hb</fbsym> mutants, embyros transgenic
| for a contruct mutant for the <fbsym>FBgn0001180==hb</fbsym> binding sites,
| <fbsym>Ecol\lacZ<up>Ubx.&Dgr;ABC</up></fbsym>, show altered expression,
| where expression is anteriorly shifted compared to
| <fbsym>FBal0042160==Ecol\lacZ<up>Ubx.bx</up></fbsym>.  Three <fbsym>FBgn0001180==hb</fbsym> binding sites have
| been characterized in the bx region.  It is proposed that <fbsym>FBgn0001180==hb</fbsym> is
| responsible for maintaining the anterior boundary of <fbsym>FBgn0003944==Ubx</fbsym> expression.
}

REF
{
REFM|FBrf0053871
|Qian et al.
|1991
REFM|FBrf0105495
|FlyBase
|1992-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005412	SYM 1 Ecol\lacZ<up>Ubx.A</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 503
ID|FBtr0005412
SYM|Ecol\lacZ<up>Ubx.A</up>RA
SYN|Ecol\lacZ<up>Ubx.A</up>R
|unnamed
ASAL|<fbsym>FBal0042143==Ecol\lacZ<up>Ubx.A</up></fbsym>
DT|25 Jan 2001
|5 Jan 2000
ASTP|<fbsym>FBtp0004586==P{ComboA}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058048
|Simon et al.
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 12 <a> parasegment 5-9 <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REF
{
REFM|FBrf0058048
|Simon et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005413	SYM 1 Ecol\lacZ<up>Ubx.B</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 503
ID|FBtr0005413
SYM|Ecol\lacZ<up>Ubx.B</up>RA
SYN|Ecol\lacZ<up>Ubx.B</up>R
|unnamed
ASAL|<fbsym>FBal0042158==Ecol\lacZ<up>Ubx.B</up></fbsym>
DT|25 Jan 2001
|5 Jan 2000
ASTP|<fbsym>FBtp0004598==P{ComboB}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058048
|Simon et al.
|1993
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 12 <a> parasegment 5-9 <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REF
{
REFM|FBrf0058048
|Simon et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005423	SYM 1 Ecol\lacZ<up>Ubx.abd-A.BI</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 638
ID|FBtr0005423
SYM|Ecol\lacZ<up>Ubx.abd-A.BI</up>RA
SYN|Ecol\lacZ<up>Ubx.abd-A.BI</up>R
|unnamed
ASAL|<fbsym>FBal0043895==Ecol\lacZ<up>Ubx.abd-A.BI</up></fbsym>
DT|25 Jan 2001
|5 Jan 2000
ASTP|<fbsym>FBtp0004820==P{BI}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0078205
|Chiang et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 11 <a> parasegment 7-12 <p>
|<t> E | stage 15 <a> central nervous system <of> parasegment 7-12 <p>
|<t> L | third instar <a> larval brain  <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REF
{
REFM|FBrf0078205
|Chiang et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005424	SYM 1 Ecol\lacZ<up>Ubx.abd-A.BBI</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 25 Jan 2001	RESZ 689
ID|FBtr0005424
SYM|Ecol\lacZ<up>Ubx.abd-A.BBI</up>RA
SYN|Ecol\lacZ<up>Ubx.abd-A.BBI</up>R
|Ecol\lacZ<up>Ubx.abd-A.BII</up>R
|unnamed
ASAL|<fbsym>FBal0043894==Ecol\lacZ<up>Ubx.abd-A.BBI</up></fbsym>
DT|25 Jan 2001
|5 Jan 2000
ASTP|<fbsym>FBtp0004819==P{BBI}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0078205
|Chiang et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|<t> E | stage 11 <a> parasegment 6-12 <p>
|<t> E | stage 15 <a> central nervous system <of> parasegment 6-12 <p>
|<t> L | third instar <a> larval brain | restricted  <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REF
{
REFM|FBrf0078205
|Chiang et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005437	SYM 1 ifc<up>+</up>RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 6 Jan 2000	RESZ 462
ID|FBtr0005437
SYM|ifc<up>+</up>RC
SYN|unnamed
ASAL|<fbsym>FBal0069264==ifc<up>+</up></fbsym>
DT|6 Jan 2000
|6 Jan 2000
ASGN|<fbsym>FBgn0001941==ifc</fbsym>
ASPP|<fbsym>FBpp0002884==ifc<up>+</up>P321B</fbsym>

REFDSR
{
RDID|FBrf0105193
|Basu and Li
|1998
RNAT|mRNA
CC|A cDNA was isolated which predicts a CDS that diverges significantly from
| the first isolated <fbsym>FBgn0001941==ifc</fbsym> cDNA (FBrf0091054).
}

REF
{
REFM|FBrf0105193
|Basu and Li
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005579	SYM 1 F-element\gag-r<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Aug 2000	RESZ 838
ID|FBtr0005579
SYM|F-element\gag-r<up>+</up>R
SYN|F\ORF1<up>+</up>R
ASAL|<fbsym>FBal0116839==F-element\gag-r<up>+</up></fbsym>
DT|16 Aug 2000
|3 Feb 2000
ASGN|<fbsym>FBgn0041632==F-element\gag-r</fbsym>

REFDSR
{
RDID|FBrf0088282
|Kerber et al.
|1996
RNAT|mRNA
VPR|experimental
BODP|In later stages of oogenesis, transcripts detected in the nuclei of nurse
| cells and follicle cells.
ASM|in situ
CVBODP|in situ
|<t> E | blastoderm <a>  <p> posterior
|<t> E <a> embryonic central nervous system <p>
|<t> E <a> amnioserosa <p>
|<t> E <a> embryonic/larval foregut <p>
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a> embryonic/larval muscle system <p>
|<t> E<a> embryonic/larval tracheal system <p>
|<t> A,O <a> follicle cell <p>
|<t> A,O <a> nurse cell <p>
|<t> A,O <a> testis <p>
}

REF
{
REFM|FBrf0088282
|Kerber et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005580	SYM 1 F-element\RTase<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Aug 2000	RESZ 838
ID|FBtr0005580
SYM|F-element\RTase<up>+</up>R
SYN|F\ORF2<up>+</up>R
ASAL|<fbsym>FBal0116840==F-element\RTase<up>+</up></fbsym>
DT|16 Aug 2000
|3 Feb 2000
ASGN|<fbsym>FBgn0041633==F-element\RTase</fbsym>

REFDSR
{
RDID|FBrf0088282
|Kerber et al.
|1996
RNAT|mRNA
VPR|experimental
BODP|In later stages of oogenesis, transcripts detected in the nuclei of nurse
| cells and follicle cells.
ASM|in situ
CVBODP|in situ
|<t> E | blastoderm <a>  <p> posterior
|<t> E <a> embryonic central nervous system <p>
|<t> E <a> amnioserosa <p>
|<t> E <a> embryonic/larval foregut <p>
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a> embryonic/larval muscle system <p>
|<t> E<a> embryonic/larval tracheal system <p>
|<t> A,O <a> follicle cell <p>
|<t> A,O <a> nurse cell <p>
|<t> A,O <a> testis <p>
}

REF
{
REFM|FBrf0088282
|Kerber et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005581	SYM 1 F-element<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 3 Feb 2000	RESZ 701
ID|FBtr0005581
SYM|F-element<up>+</up>R
DT|3 Feb 2000
|3 Feb 2000

REFDSR
{
RDID|FBrf0088282
|Kerber et al.
|1996
RNAT|mRNA
VPR|experimental
BODP|In later stages of oogenesis, transcripts detected in the nuclei of nurse
| cells and follicle cells.
ASM|in situ
CVBODP|in situ
|<t> E | blastoderm <a>  <p> posterior
|<t> E <a> embryonic central nervous system <p>
|<t> E <a> amnioserosa <p>
|<t> E <a> embryonic/larval foregut <p>
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a> embryonic/larval muscle system <p>
|<t> E<a> embryonic/larval tracheal system <p>
|<t> A,O <a> follicle cell <p>
|<t> A,O <a> nurse cell <p>
|<t> A,O <a> testis <p>
}

REF
{
REFM|FBrf0088282
|Kerber et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005586	SYM 1 ewg<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 3 Feb 2000	RESZ 1179
ID|FBtr0005586
SYM|ewg<up>+</up>R
ASAL|<fbsym>FBal0068919==ewg<up>+</up></fbsym>
DT|3 Feb 2000
|3 Feb 2000
ASGN|<fbsym>FBgn0005427==ewg</fbsym>
ASPP|<fbsym>FBpp0002941==ewg-P1</fbsym>

REFDSR
{
RDID|FBrf0059052
|de Simone and White
|1993
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0108221
|Koushika et al.
|1999
RNAT|mRNA
BODP|In contrast to <fbsym>FBgn0005427==ewg</fbsym> protein, <fbsym>FBgn0005427==ewg</fbsym> transcripts are detected in both adult
| head and body.
CC|Evidence for alternative splicing in <fbsym>FBgn0005427==ewg</fbsym> transcripts is presented. In
| contrast to <fbsym>FBgn0005427==ewg</fbsym> protein, <fbsym>FBgn0001981==esg</fbsym> transcripts are present in both adult head
| and body. The gene consists of 10 exons and some introns are inefficiently
| spliced. Heads have higher levels of the transcript form that encodes the
| 116kD neural form of <fbsym>FBgn0005427==ewg</fbsym> protein than bodies and bodies have greater
| levels of unprocessed transcript forms. A number of possible forms are
| predicted mainly based on alternative splicing in introns 3 and 6.
}

REF
{
REFM|FBrf0059052
|de Simone and White
|1993
REFM|FBrf0108221
|Koushika et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005603	SYM 1 su(w<up>a</up>)-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Feb 2000	RESZ 203
ID|FBtr0005603
SYM|su(w<up>a</up>)-RA
DT|23 Feb 2000
|23 Feb 2000
ARGS|FBgn0003638

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,4,5,6,7,8,9,10
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005604	SYM 1 su(w<up>a</up>)-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Feb 2000	RESZ 201
ID|FBtr0005604
SYM|su(w<up>a</up>)-RB
DT|23 Feb 2000
|23 Feb 2000
ARGS|FBgn0003638

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|2,5,6,7,8,9,10
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005605	SYM 1 su(w<up>a</up>)-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Feb 2000	RESZ 199
ID|FBtr0005605
SYM|su(w<up>a</up>)-RC
DT|23 Feb 2000
|23 Feb 2000
ARGS|FBgn0003638

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|3,6,7,8,9,10
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005740	SYM 1 ph-p<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 13 Apr 2000	RESZ 2908
ID|FBtr0005740
SYM|ph-p<up>+</up>R
ASAL|<fbsym>FBal0070880==ph-p<up>+</up></fbsym>
DT|13 Apr 2000
|13 Apr 2000
ASGN|<fbsym>FBgn0004861==ph-p</fbsym>

REFDSR
{
RDID|FBrf0077497
|de Camillis and Brock
|1994
RNAT|mRNA
BODP|ph transcripts are observed in the germarium and in stage 1-10 egg chambers.
| In later stages, staining is confined to nurse cells and follicle cells and
| is not seen in the ooctye. A light diffuse staining is observed in
| unfertilized eggs and early embryos. During the blastoderm stage, staining
| is observed in three stripes in the anterior of the embryo that extend from
| about 80% to 50% egg length. During gastrulation, expression is ubiquitous
| but is more intense in the ectoderm. During germ band extension, expression
| is more intense in parts of each parasegment and in germ band retraction,
| staining is more intense in CNS precursors. ph transcripts are observed in
| eye-antennal, leg, wing, and haltere discs in third instar larvae. While
| staining is observed all over the discs, some regions stain more intensely.
| For example, in eye-antennal discs, regions that will give rise to the
| posterior part of the eye and the orbital region as well as the proximal
| part of the antenna on the lateral side stain more intensely. The haltere
| disc consistantly shows a gradient of expression. The probes used do not
| distinguish between <fbsym>FBgn0004861==ph-p</fbsym> and <fbsym>FBgn0004860==ph-d</fbsym> transcripts.
ASM|in situ
CVBODP|in situ
|<t> O,A <a> germarium <p>
|<t> O,A | stage S1-S10 <a> nurse cell <p>
|<t> O,A | stage S1-S10 <a> follicle cell <p>
|<t> E | blastoderm<a>  <p> 50-80% egg length
|<t> E <a>  <p> ubiquitous
|<t> E | stage 8-11 <a> germ band <p>
|<t> E | stage 8-11 <a> parasegment | restricted <p>
|<t> E | stage >=12 <a> embryonic central nervous system <p>
|<t> L | third instar <a> dorsal mesothoracic disc <p>
|<t> L | third instar <a> eye-antennal disc <p>
|<t> L | third instar <a> ventral thoracic disc <p>
|<t> L | third instar <a> dorsal metathoracic disc <p>
}

REFDSR
{
RDID|FBrf0083917
|Fauvarque et al.
|1995
RNAT|mRNA
BODP|ph transcripts are expressed in two domains extending from 50-90% egg length
| and from 10-30% egg length in cellular blastoderm embryos. During
| gastrulation and in germ band extended embryos, ph is expressed uniformly.
| At this time, segmental lateral stripes are observed on the ectoderm. In
| late germ band extended embryos, expression is strong in the CNS. The probe
| used is from <fbsym>FBgn0004861==ph-p</fbsym> but may pick up <fbsym>FBgn0004860==ph-d</fbsym> transcripts as well.
CVBODP|in situ
|<t> E | cellular blastoderm <a>  <p> 50-90% egg length
|<t> E | cellular blastoderm <a>  <p> 10-30% egg length
|<t> E <a> ectoderm <p> stripes
|<t> E <a> embryonic central nervous system <p>
}

REF
{
REFM|FBrf0077497
|de Camillis and Brock
|1994
REFM|FBrf0083917
|Fauvarque et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005745	SYM 1 copia\GIP-RA	TRL 1 5.0	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 6	DT 1 16 Aug 2000	RESZ 1551
ID|FBtr0005745
SYM|copia\GIP-RA
SYN|copia\GIP<up>+</up>R5.0
ASAL|<fbsym>FBal0105290==copia\GIP<up>+</up></fbsym>
DT|16 Aug 2000
|13 Apr 2000
ID2|FBtr0001902
|FBtr0001903
ASGN|<fbsym>FBgn0013437==copia\GIP</fbsym>
ASPP|<fbsym>FBpp0003055==copia\GIP-P1</fbsym>

REFDSR
{
RDID|FBrf0031173
|Carlson and Brutlag
|1978
RNAT|mRNA
TRL|5.2 (northern blot)
BODP|Abundant transcript in cell culture (Kc cells).
ASM|northern blot
CVBODP|northern blot
|<t> E <a>  <p>
}

REFDSR
{
RDID|FBrf0043227
|Mount and Rubin
|1985
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0043352
|Emori et al.
|1985
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0049930
|Strand and McDonald
|1989
RNAT|copia
TRL|5.0 (northern blot)
BODP|Northern blots indicate that copia transcripts are rare in embryos, increase
| to a peak in 3rd instar larvae, decline again during the pupal phase and
| then rise in adults 1-2 days after eclosion. In situ hybridization shows
| that copia transcripts are present in fat body but not oocytes.
ASM|northern blot
|in situ
CVBODP|<t> A | female <a> adult fat body <p>
}

REFDSR
{
RDID|FBrf0052719
|Brierley and Flavell
|1990
RNAT|copia
}

REFDSR
{
RDID|FBrf0053378
|Shimell et al.
|1991
RNAT|copia
BODP|No increase in <fbsym>FBgn0000349==copia</fbsym> RNA levels is observed after heat shock of Kc cells
ASM|northern blot
}

REF
{
REFM|FBrf0031173
|Carlson and Brutlag
|1978
REFM|FBrf0043227
|Mount and Rubin
|1985
REFM|FBrf0043352
|Emori et al.
|1985
REFM|FBrf0049930
|Strand and McDonald
|1989
REFM|FBrf0052719
|Brierley and Flavell
|1990
REFM|FBrf0053378
|Shimell et al.
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005746	SYM 1 copia\GIP-RB	TRL 1 2	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 5	DT 1 16 Aug 2000	RESZ 1002
ID|FBtr0005746
SYM|copia\GIP-RB
SYN|copia\GIP<up>+</up>R2.0
ASAL|<fbsym>FBal0105290==copia\GIP<up>+</up></fbsym>
DT|16 Aug 2000
|13 Apr 2000
ID2|FBtr0001901
|FBtr0001902
ASGN|<fbsym>FBgn0013437==copia\GIP</fbsym>
ASPP|<fbsym>FBpp0003060==copia\GIP-P2</fbsym>

REFDSR
{
RDID|FBrf0031173
|Carlson and Brutlag
|1978
RNAT|mRNA
TRL|2.1 (northern blot)
BODP|Abundant transcript in cell culture (Kc cells).
ASM|northern blot
CVBODP|northern blot
|<t> E <a>  <p>
}

REFDSR
{
RDID|FBrf0050698
|Miller et al.
|1989
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0052719
|Brierley and Flavell
|1990
RNAT|copia
TRL|2
}

REFDSR
{
RDID|FBrf0053600
|Sneddon and Flavell
|1991
RNAT|copia
BODP|No increase in <fbsym>FBgn0000349==copia</fbsym> RNA levels is observed after heat shock of Kc cells
ASM|northern blot
}

REF
{
REFM|FBrf0031173
|Carlson and Brutlag
|1978
REFM|FBrf0050698
|Miller et al.
|1989
REFM|FBrf0051672
|Yoshioka et al.
|1990
REFM|FBrf0052719
|Brierley and Flavell
|1990
REFM|FBrf0053600
|Sneddon and Flavell
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005748	SYM 1 copia\GIP<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 30 May 2000	RESZ 1187
ID|FBtr0005748
SYM|copia\GIP<up>+</up>R
ASAL|<fbsym>FBal0105290==copia\GIP<up>+</up></fbsym>
DT|30 May 2000
|13 Apr 2000
ASGN|<fbsym>FBgn0013437==copia\GIP</fbsym>

REFDSR
{
RDID|FBrf0036023
|Young and Schwartz
|1981
RNAT|mRNA
PCL|Enriched in nuclei: ~75% of total <fbsym>FBgn0013437==copia\GIP</fbsym> cellular RNA found in
| association with nuclei.
BODP|Quantitative assay of percentage total cellular RNA.  Expressed in all
| developmental stages analyzed; levels in cultured cells
| (Kc<down>o</down>cells) approximately 10-fold higher than in adults.
ASM|miscellaneous
CVBODP|miscellaneous
|<t> E <a>  <p>
|<t> L | second instar <a>  <p>
|<t> L | third instar <a>  <p>
|<t> A <a>  <p>
CVCEL|nucleus
|cytoplasm
}

REFDSR
{
RDID|FBrf0079992
|Ding and Lipshitz
|1994
RNAT|mRNA
ASM|in situ
CVBODP|in situ
|<t> E | extended germ band stage <a> ventral midline | segmentally repeated <p>
|<t> E | stage >=13 <a> embryonic central nervous system <p>
|<t> E | stage >=13 <a> embryonic brain <p>
|<t> E | stage 13 <a> ventral neurogenic region <p>
|<t> E | stage>=14 <a> ventral nerve cord <p>
}

REF
{
REFM|FBrf0036023
|Young and Schwartz
|1981
REFM|FBrf0079992
|Ding and Lipshitz
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005749	SYM 1 P\T-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 30 May 2000	RESZ 870
ID|FBtr0005749
SYM|P\T-RA
ASAL|<fbsym>FBal0105277==P\T<up>+</up></fbsym>
DT|30 May 2000
|13 Apr 2000
ASGN|<fbsym>FBgn0013311==P\T</fbsym>
ASPP|<fbsym>FBpp0003056==P\T-P1</fbsym>

REFDSR
{
RDID|FBrf0040470
|Karess and Rubin
|1984
RNAT|mRNA
EXNSQ|1,2,3,4
CC|By analysis of transformants containing frameshift mutations in each of the
| 4 open reading frames, establish that all 4 ORF's are necessary for
| production of active transposase.
}

REFDSR
{
RDID|FBrf0043900
|Rio et al.
|1986
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0043918
|Laski et al.
|1986
RNAT|mRNA
EXNSQ|1,2,3,4
CC|Existence postulated on the basis of observed transposase activity in
| mutation removing intron between ORF2 and ORF3 (<fbsym>P\T&Dgr;2-3</fbsym>
| carried in P{&Dgr;2-3}). 
}

REF
{
REFM|FBrf0040470
|Karess and Rubin
|1984
REFM|FBrf0043900
|Rio et al.
|1986
REFM|FBrf0043918
|Laski et al.
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005750	SYM 1 P\T-RB	TRL 1 2.5	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 30 May 2000	RESZ 881
ID|FBtr0005750
SYM|P\T-RB
SYN|P\T<up>+</up>R2.5
|2.5kb
ASAL|<fbsym>FBal0105277==P\T<up>+</up></fbsym>
DT|30 May 2000
|13 Apr 2000
ASGN|<fbsym>FBgn0013311==P\T</fbsym>

REFDSR
{
RDID|FBrf0040470
|Karess and Rubin
|1984
RNAT|mRNA
TRL|2.5 (northern blot)
VPR|experimental
BODP|Observed in natural P strains and in embryos of both dysgenic and
| non-dysgenic crosses.
ASM|northern blot
CVBODP|northern blot
|<t> E <a>  <p>
}

REFDSR
{
RDID|FBrf0043918
|Laski et al.
|1986
RNAT|mRNA
TRL|2.5 (nb, sa)
EXNSQ|1,2,5
BODP|In strains carrying complete P-elements, present at all stages of
| development; present in somatic tissues.
ASM|northern blot
CVBODP|<t> E-A <a>  <p>
CC|By ribonuclease protection assays, demonstrate that intron between ORF2 and
| ORF3 has not been spliced from this transcript.
}

REF
{
REFM|FBrf0040470
|Karess and Rubin
|1984
REFM|FBrf0043918
|Laski et al.
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005752	SYM 1 P\T-RC	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 698
ID|FBtr0005752
SYM|P\T-RC
SYN|3.0kb
ASAL|<fbsym>FBal0105277==P\T<up>+</up></fbsym>
DT|30 May 2000
|13 Apr 2000
ASGN|<fbsym>FBgn0013311==P\T</fbsym>

REFDSR
{
RDID|FBrf0043918
|Laski et al.
|1986
RNAT|mRNA
EXNSQ|1,2,6
BODP|In strains carrying complete P-elements, present at all stages of
| development; present in somatic tissues.
ASM|northern blot
CVBODP|northern blot
|<t> E-A <a>  <p>
CC|Group of read-through transcripts of variable length processed using
| alternate polyadenylation signal outside the P-element. Described as 3.0kb
| transcript because in strains carrying <fbsym>FBtp0000048==P{Pry}</fbsym>, a single 3.0kb species is observed.
}

REF
{
REFM|FBrf0043918
|Laski et al.
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005783	SYM 1 Ecol\lacZ<up>P\T.W</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 13 Apr 2000	RESZ 728
ID|FBtr0005783
SYM|Ecol\lacZ<up>P\T.W</up>RA
ASAL|<fbsym>FBal0043887==Ecol\lacZ<up>P\T.W</up></fbsym>
DT|13 Apr 2000
|13 Apr 2000
ASTP|<fbsym>FBtp0000204==P{lacW}</fbsym>
|<fbsym>FBms0000729==P\T::lacZ(P5',Bg2)</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049800
|Bier et al.
|1989
RNAT|mRNA
BODP|In embryos, pattern of expression dependent upon position of insertion.
| Observed expression always nuclear, independent of insertion site.
ASM|transcript distribution deduced from reporter protein
ASCRGN|<fbsym>FBgn0013311==P\T</fbsym>
CC|Nuclear expression ascribed to nuclear localization signal derived from
| <fbsym>FBgn0013311==P\T</fbsym> sequences.
}

REF
{
REFM|FBrf0049800
|Bier et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005804	SYM 1 Nac&agr;-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 11 May 2000	RESZ 321
ID|FBtr0005804
SYM|Nac&agr;-RB
ASAL|<fbsym>FBal0095944==Nac&agr;<up>+</up></fbsym>
DT|11 May 2000
|11 May 2000
ARGS|FBgn0017565
ASGN|<fbsym>FBgn0017565==Nac&agr;</fbsym>
ASPP|<fbsym>FBpp0003072==Nac&agr;-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005805	SYM 1 Nac&agr;-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 11 May 2000	RESZ 322
ID|FBtr0005805
SYM|Nac&agr;-RA
ASAL|<fbsym>FBal0095944==Nac&agr;<up>+</up></fbsym>
DT|11 May 2000
|11 May 2000
ARGS|FBgn0017565
ASGN|<fbsym>FBgn0017565==Nac&agr;</fbsym>
ASPP|<fbsym>FBpp0003072==Nac&agr;-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|2,3
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005838	SYM 1 ttk<up>+</up>RA	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 595
ID|FBtr0005838
SYM|ttk<up>+</up>RA
ASAL|<fbsym>FBal0071410==ttk<up>+</up></fbsym>
DT|30 May 2000
|30 May 2000
ASGN|<fbsym>FBgn0003870==ttk</fbsym>
ASPP|<fbsym>FBpp0001451==ttk<up>+</up>P641</fbsym>

REFDSR
{
RDID|FBrf0051631
|Harrison and Travers
|1990
RNAT|mRNA
|mRNA
BODP|Two transcripts are observed in early embryos and adults. They are
| homogenously distributed in early embryos and are smaller than the
| transcripts observed at later embryonic stages.
ASM|northern blot
CVBODP|northern blot
|<t> E | early <a>  <p>
|<t> A <a>  <p>
}

REF
{
REFM|FBrf0051631
|Harrison and Travers
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005839	SYM 1 ttk<up>+</up>RB	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 538
ID|FBtr0005839
SYM|ttk<up>+</up>RB
ASAL|<fbsym>FBal0071410==ttk<up>+</up></fbsym>
DT|30 May 2000
|30 May 2000
ASGN|<fbsym>FBgn0003870==ttk</fbsym>

REFDSR
{
RDID|FBrf0051631
|Harrison and Travers
|1990
RNAT|mRNA
BODP|Two transcripts are observed in early embryos and adults. They are
| homogenously distributed in early embryos and are smaller than the
| transcripts observed at later embryonic stages.
ASM|northern blot
CVBODP|northern blot
|<t> E | early <a>  <p>
|<t> A <a>  <p>
}

REF
{
REFM|FBrf0051631
|Harrison and Travers
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005840	SYM 1 ttk<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 30 May 2000	RESZ 302
ID|FBtr0005840
SYM|ttk<up>+</up>R
ASAL|<fbsym>FBal0071410==ttk<up>+</up></fbsym>
DT|30 May 2000
|30 May 2000
ASGN|<fbsym>FBgn0003870==ttk</fbsym>
ASPP|<fbsym>FBpp0001451==ttk<up>+</up>P641</fbsym>

REFDSR
{
RDID|FBrf0053900
|Brown et al.
|1991
RNAT|mRNA
}

REF
{
REFM|FBrf0053900
|Brown et al.
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005961	SYM 1 Ecol\lacZ<up>tin.D</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Aug 2000	RESZ 591
ID|FBtr0005961
SYM|Ecol\lacZ<up>tin.D</up>RA
ASAL|<fbsym>FBal0086436==Ecol\lacZ<up>tin.D</up></fbsym>
DT|16 Aug 2000
|16 Aug 2000
ASTP|<fbsym>FBtp0009150==P{tin-lacZ.D}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0103397
|Xu et al.
|1998
RNAT|mRNA
BODP|Resembles pattern of endogenous <fbsym>FBgn0004110==tin</fbsym> expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> mesoderm | dorsal <p>
ASCRGN|<fbsym>FBgn0004110==tin</fbsym>
}

REF
{
REFM|FBrf0103397
|Xu et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005965	SYM 1 Ecol\lacZ<up>tin.D.cXa</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 16 Aug 2000	RESZ 520
ID|FBtr0005965
SYM|Ecol\lacZ<up>tin.D.cXa</up>RA
ASAL|<fbsym>FBal0092661==Ecol\lacZ<up>tin.D.cXa</up></fbsym>
DT|16 Aug 2000
|16 Aug 2000
ASTP|<fbsym>FBtp0009879==P{tin-lacZ.D*}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0103397
|Xu et al.
|1998
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 8-11 <a> amnioserosa <p>
|<t> E <a> mesoderm | dorsal <p>
}

REF
{
REFM|FBrf0103397
|Xu et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005967	SYM 1 Nrg<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 16 Aug 2000	RESZ 343
ID|FBtr0005967
SYM|Nrg<up>+</up>RB
ASAL|<fbsym>FBal0068125==Nrg<up>+</up></fbsym>
DT|16 Aug 2000
|16 Aug 2000
ASGN|<fbsym>FBgn0002968==Nrg</fbsym>
ASPP|<fbsym>FBpp0001650==Nrg<up>+</up>P180kD</fbsym>

REFDSR
{
RDID|FBrf0103453
|Zhao and Hortsch
|1998
RNAT|mRNA
VPR|experimental
EXNSQ|1-6,7b
}

REF
{
REFM|FBrf0103453
|Zhao and Hortsch
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0005974	SYM 1 Btau\MAPT<up>isl.H.T:Hsap\MYC</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 23 Dec 2000	RESZ 2746
ID|FBtr0005974
SYM|Btau\MAPT<up>isl.H.T:Hsap\MYC</up>RA
ASAL|<fbsym>FBal0060490==Btau\MAPT<up>isl.H.T:Hsap\MYC</up></fbsym>
DT|23 Dec 2000
|16 Aug 2000
ASTP|<fbsym>FBtp0007840==P{islH-tau-myc}</fbsym>
ASGN|<fbsym>FBgn0015551==Btau\MAPT</fbsym>

REFDSR
{
RDID|FBrf0093227
|Thor and Thomas
|1997
RNAT|mRNA
BODP|Reporter expression is not detected in neuroblasts but in postmitotic
| neurons, in a subset of motor neurons and interneurons. The subset of motor
| neurons expressing the reporter innervate muscles located ventrally in the
| body wall, and include RP1, RP3 and RP4. Reporter expression is detected in
| 3 morphologically different classes of interneurons. Double staining for
| <fbsym>FBgn0000099==ap</fbsym> and <fbsym>FBgn0003896==tup</fbsym> reporters reveal that they are expressed in nonoverlapping
| subsets of neurons that project axons along different pathways.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> motor neuron | subset <p>
|<t> E <a> interneuron | subset <p>
|<t> E <a> RP1 neuron <p>
|<t> E <a> RP3 neuron <p>
|<t> E <a> RP4 neuron <p>
ASCRGN|<fbsym>FBgn0003896==tup</fbsym>
}

REFDSR
{
RDID|FBrf0105986
|Thor et al.
|1999
RNAT|mRNA
|mRNA
BODP|Reporter construct studies indicate that <fbsym>FBgn0002023==Lim3</fbsym> is co-expressed with <fbsym>FBgn0003896==tup</fbsym>
| in a subset of motor neurons. For the intersegmental nerve, all the
| ISNb-specific motor neurons express both <fbsym>FBgn0002023==Lim3</fbsym> and <fbsym>FBgn0003896==tup</fbsym>, while those
| projecting in ISNd only express <fbsym>FBgn0003896==tup</fbsym>. <fbsym>FBgn0002023==Lim3</fbsym> is not co-expressed with
| <fbsym>FBgn0003896==tup</fbsym> or <fbsym>FBgn0000099==ap</fbsym> in interneurons. Motor neurons co-expressing <fbsym>FBgn0003896==tup</fbsym> and <fbsym>FBgn0002023==Lim3</fbsym>
| include motor neurons RP1, RP3, RP4, RP5, the contralateral V motor neuron
| which innervates muscle 12, and MN28 and MN14/30 which innervate muscles 28
| and 14 plus 30, respectively. The <fbsym>FBgn0003896==tup</fbsym>-expressing motor neurons projecting
| in ISNd innervate muscles 15-17.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 16 <a> interneuron | subset <p>
|<t> E | stage >=13 <a> motor neuron | subset <p>
|<t> E | stage 16 <a> RP1 neuron <p>
|<t> E | stage 16 <a> RP3 neuron <p>
|<t> E | stage 16 <a> RP4 neuron <p>
|<t> E | stage 16 <a> RP5 neuron <p>
ASCRGN|<fbsym>FBgn0003896==tup</fbsym>
CC|Reporter expression assayed using the <fbsym>Hsap\MYC</fbsym> epitope.
}

REF
{
REFM|FBrf0093227
|Thor and Thomas
|1997
REFM|FBrf0105986
|Thor et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006010	SYM 1 Ecol\lacZ<up>Dhod.&Dgr;BH</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 565
ID|FBtr0006010
SYM|Ecol\lacZ<up>Dhod.&Dgr;BH</up>RA
SYN|Ecol\lacZ<up>Dhod.DeltaBH</up>RA
ASAL|<fbsym>FBal0047341==Ecol\lacZ<up>Dhod.&Dgr;BH</up></fbsym>
DT|21 Nov 2000
|16 Aug 2000
ASTP|<fbsym>FBtp0005407==P{ds1&Dgr;BH}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080501
|Yang et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A | male <a> spermatid <p>
ASCRGN|<fbsym>FBgn0000447==Dhod</fbsym>
}

REF
{
REFM|FBrf0080501
|Yang et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006011	SYM 1 Ecol\lacZ<up>Dhod.&Dgr;CH</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 565
ID|FBtr0006011
SYM|Ecol\lacZ<up>Dhod.&Dgr;CH</up>RA
SYN|Ecol\lacZ<up>Dhod.DeltaCH</up>RA
ASAL|<fbsym>FBal0047342==Ecol\lacZ<up>Dhod.&Dgr;CH</up></fbsym>
DT|21 Nov 2000
|16 Aug 2000
ASTP|<fbsym>FBtp0005408==P{ds1&Dgr;CH}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0080501
|Yang et al.
|1995
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A | male <a> spermatid <p>
ASCRGN|<fbsym>FBgn0000447==Dhod</fbsym>
}

REF
{
REFM|FBrf0080501
|Yang et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006089	SYM 1 Ecol\lacZ<up>jim-OVK</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 22 Aug 2000	RESZ 705
ID|FBtr0006089
SYM|Ecol\lacZ<up>jim-OVK</up>RA
ASAL|<fbsym>FBal0086457==Ecol\lacZ<up>jim-OVK</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASTI|<fbsym>FBti0003707==P{lacW}jim<up>OVK</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111357
|Doerflinger et al.
|1999
RNAT|mRNA
BODP|Enhancer trap expression is observed from stage 10 of oogenesis specifically
| in the non-antero-dorsal columnar follicle cells.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> O,A | stage >=S10 <a> oocyte associated follicle cell <p>
ASCRGN|<fbsym>FBgn0027339==jim</fbsym>
}

REF
{
REFM|FBrf0111357
|Doerflinger et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006098	SYM 1 activin-&bgr;<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 22 Aug 2000	RESZ 775
ID|FBtr0006098
SYM|activin-&bgr;<up>+</up>RA
ASAL|<fbsym>FBal0090895==activin-&bgr;<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0024913==activin-&bgr;</fbsym>

REFDSR
{
RDID|FBrf0111417
|Lo and Frasch
|1999
RNAT|mRNA
BODP|<fbsym>activin-&bgr;</fbsym> transcripts are initially observed in neuroblasts and
| sensory organ precursors in stage 11 embryos. They continue to be expressed
| in neuronal cells in the CNS and PNS and in late embryos, appear throughout
| the ventral nerve cord.
ASM|in situ
CVBODP|in situ
|<t> E <a> neuroblast <p>
|<t> E <a> sensillum precursor <p>
|<t> E <a> embryonic central nervous system <p>
|<t> E <a> embryonic peripheral nervous system <p>
|<t> E <a> ventral nerve cord <p>
}

REF
{
REFM|FBrf0111417
|Lo and Frasch
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006115	SYM 1 raw<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 22 Aug 2000	RESZ 251
ID|FBtr0006115
SYM|raw<up>+</up>R
ASAL|<fbsym>FBal0074121==raw<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0003209==raw</fbsym>

REFDSR
{
RDID|FBrf0111821
|Byars et al.
|1999
RNAT|mRNA
}

REF
{
REFM|FBrf0111821
|Byars et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006118	SYM 1 &dgr;COP<up>+</up>RA	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 22 Aug 2000	RESZ 475
ID|FBtr0006118
SYM|&dgr;COP<up>+</up>RA
ASAL|<fbsym>FBal0102315==&dgr;COP<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0028969==&dgr;COP</fbsym>
ASPP|<fbsym>FBpp0003217==&dgr;COP<up>+</up>P498</fbsym>

REFDSR
{
RDID|FBrf0112254
|Mullins et al.
|1999
RNAT|mRNA
BODP|<fbsym>&dgr;COP</fbsym> transcripts are detected at all stages of development tested.
ASM|northern blot
CVBODP|northern blot
|<t> E-A <a>  <p>
}

REF
{
REFM|FBrf0112254
|Mullins et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006138	SYM 1 Antp<up>+</up>R	TRL 1 -	ASM 1 RNase protection, primer extension, SI etc.	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 22 Aug 2000	RESZ 2677
ID|FBtr0006138
SYM|Antp<up>+</up>R
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0000095==Antp</fbsym>

REFDSR
{
RDID|FBrf0047943
|Bermingham and Scott
|1988
RNAT|mRNA
BODP|Stage specific expression of the various <fbsym>FBgn0000095==Antp</fbsym> splice forms is described.
| Transcripts containing the long form of of the seventh exon are more
| prevalent in early embryos (present in about 80% of transcripts) and
| decline to about 23% of transcripts by the pupal stage. Transcripts
| containing the short form of exon 7 are more prevalent from 12h after
| fertilization and on. The sixth exon is present in about 93% of <fbsym>FBgn0000095==Antp</fbsym>
| transcripts until 12h of development and then decreases until it is present
| in about 60% of transcripts in pupae. The alternative splicing choice is
| independent of promoter usage and polyadenylation site usage during
| development. Use of the upstream polyadenylation site is more prevalent in
| 4-8hr embryos while in larvae the use of the downstream site is favored.
ASM|RNase protection, primer extension, SI etc.
CC|Alternative forms of <fbsym>FBgn0000095==Antp</fbsym> transcripts are formed by the use of two splice
| donor sites at the 3' end of the seventh exon that are separated by 12
| bases and by the exclusion or inclusion of the 39 base sixth exon. This is
| in addition to the previously noted use of alternative promoters and
| polyadenylation sites.
}

REFDSR
{
RDID|FBrf0048668
|Stroeher et al.
|1988
RNAT|mRNA
BODP|Stage and tissue specific expression of the various <fbsym>FBgn0000095==Antp</fbsym> splice forms is
| described. Transcripts containing exon 6 are most prevalent in embryos and
| transcripts lacking exon 6 become increasingly abundant as development
| proceeds. The choiceof the splice donor at the 3' end of the seventh exon
| is similarly regulated. In embryos the downstream splice site is favored
| while at later stages the splice donor site 12 bases upstream is favored.
| Alternative splice forms were characterized in dissected tissues from third
| instar larvae. In discs, mRNAs lacking exon 6 are three times more abundant
| than transcripts containing exon 6. In the gut and posterior carcass,
| transcripts containing exon 6 are more abundant and in the CNS they are
| present almost exclusively. Within discs and in neural tissue, the
| downstream splice donor site in the seventh exon is predominantly used.
| Within gut and posterior carcass, the upstream site is favored.
ASM|RNase protection, primer extension, SI etc.
}

REF
{
REFM|FBrf0047943
|Bermingham and Scott
|1988
REFM|FBrf0048668
|Stroeher et al.
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006139	SYM 1 Antp-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 22 Aug 2000	RESZ 452
ID|FBtr0006139
SYM|Antp-RA
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0000095==Antp</fbsym>
ASPP|<fbsym>FBpp0000098==Antp<up>+</up>P378</fbsym>

REFDSR
{
RDID|FBrf0047943
|Bermingham and Scott
|1988
RNAT|mRNA
EXNSQ|1,2,4-6,8,9
}

REFDSR
{
RDID|FBrf0048668
|Stroeher et al.
|1988
RNAT|mRNA
EXNSQ|1,2,4-6,8,9
}

REF
{
REFM|FBrf0047943
|Bermingham and Scott
|1988
REFM|FBrf0048668
|Stroeher et al.
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006140	SYM 1 Antp-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 22 Aug 2000	RESZ 444
ID|FBtr0006140
SYM|Antp-RB
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0000095==Antp</fbsym>
ASPP|<fbsym>FBpp0000098==Antp<up>+</up>P378</fbsym>

REFDSR
{
RDID|FBrf0047943
|Bermingham and Scott
|1988
RNAT|mRNA
EXNSQ|3-6,8,9
}

REFDSR
{
RDID|FBrf0048668
|Stroeher et al.
|1988
RNAT|mRNA
EXNSQ|3-6,8,9
}

REF
{
REFM|FBrf0047943
|Bermingham and Scott
|1988
REFM|FBrf0048668
|Stroeher et al.
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006141	SYM 1 Antp-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 22 Aug 2000	RESZ 319
ID|FBtr0006141
SYM|Antp-RC
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0000095==Antp</fbsym>
ASPP|<fbsym>FBpp0003235==Antp-P2</fbsym>

REFDSR
{
RDID|FBrf0047943
|Bermingham and Scott
|1988
RNAT|mRNA
EXNSQ|1,2,4-7,9
}

REF
{
REFM|FBrf0047943
|Bermingham and Scott
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006142	SYM 1 Antp<up>+</up>RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 22 Aug 2000	RESZ 324
ID|FBtr0006142
SYM|Antp<up>+</up>RD
ASAL|<fbsym>FBal0066388==Antp<up>+</up></fbsym>
DT|22 Aug 2000
|22 Aug 2000
ASGN|<fbsym>FBgn0000095==Antp</fbsym>
ASPP|<fbsym>FBpp0003235==Antp-P2</fbsym>

REFDSR
{
RDID|FBrf0047943
|Bermingham and Scott
|1988
RNAT|mRNA
EXNSQ|3-7,9
}

REF
{
REFM|FBrf0047943
|Bermingham and Scott
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006149	SYM 1 &agr;Cop-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 6 Sep 2000	RESZ 320
ID|FBtr0006149
SYM|&agr;Cop-RA
ASAL|<fbsym>FBal0093739==&agr;Cop<up>+</up></fbsym>
DT|6 Sep 2000
|6 Sep 2000
ARGS|FBgn0025725
ASGN|<fbsym>FBgn0025725==&agr;Cop</fbsym>
ASPP|<fbsym>FBpp0003239==&agr;Cop-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006150	SYM 1 Adh-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 6 Sep 2000	RESZ 304
ID|FBtr0006150
SYM|Adh-RA
ASAL|<fbsym>FBal0066361==Adh<up>+</up></fbsym>
DT|6 Sep 2000
|6 Sep 2000
ARGS|FBgn0000055
ASGN|<fbsym>FBgn0000055==Adh</fbsym>
ASPP|<fbsym>FBpp0003240==Adh-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,4
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006151	SYM 1 Adhr-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 6 Sep 2000	RESZ 306
ID|FBtr0006151
SYM|Adhr-RA
ASAL|<fbsym>FBal0066362==Adhr<up>+</up></fbsym>
DT|6 Sep 2000
|6 Sep 2000
ARGS|FBgn0000056
ASGN|<fbsym>FBgn0000056==Adhr</fbsym>
ASPP|<fbsym>FBpp0003241==Adhr-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006169	SYM 1 slgA<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 323
ID|FBtr0006169
SYM|slgA<up>+</up>R
ASAL|<fbsym>FBal0071060==slgA<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0003423==slgA</fbsym>
ASPP|<fbsym>FBpp0001265==slgA<up>+</up>P669</fbsym>

REFDSR
{
RDID|FBrf0101952
|Maleszka et al.
|1998
RNAT|mRNA
EXNSQ|1-10
}

REF
{
REFM|FBrf0101952
|Maleszka et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006171	SYM 1 waw<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 319
ID|FBtr0006171
SYM|waw<up>+</up>RA
ASAL|<fbsym>FBal0088160==waw<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0024182==waw</fbsym>
ASPP|<fbsym>FBpp0003254==waw<up>+</up>P679</fbsym>

REFDSR
{
RDID|FBrf0101952
|Maleszka et al.
|1998
RNAT|mRNA
EXNSQ|1-4
}

REF
{
REFM|FBrf0101952
|Maleszka et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006194	SYM 1 shot<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 936
ID|FBtr0006194
SYM|shot<up>+</up>RA
SYN|isoform A
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>
ASPP|<fbsym>FBpp0003280==shot<up>+</up>PA</fbsym>

REFDSR
{
RDID|FBrf0105832
|Gregory and Brown
|1998
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0125142
|Lee et al.
|2000
RNAT|mRNA
BODP|<fbsym>FBgn0013733==shot</fbsym> transcripts are expressed in the epidermis and at muscle attachment
| sites. In addition, they are expressed in the CNS and the PNS from
| embryonic stage 13. Only the transcripts encoding isoforms which include
| the actin binding domain are detected in the embryonic CNS.
CVBODP|in situ
|<t> E <a> epidermis <p>
|<t> E <a> muscle attachment site <p>
|<t> E | stage >=13 <a> embryonic central nervous system <p>
|<t> E | stage >=13 <a> embryonic peripheral nervous system <p>
}

REF
{
REFM|FBrf0105832
|Gregory and Brown
|1998
REFM|FBrf0125142
|Lee et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006195	SYM 1 shot<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 936
ID|FBtr0006195
SYM|shot<up>+</up>RB
SYN|isoform B
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>
ASPP|<fbsym>FBpp0003281==shot<up>+</up>PB</fbsym>

REFDSR
{
RDID|FBrf0105832
|Gregory and Brown
|1998
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0125142
|Lee et al.
|2000
RNAT|mRNA
BODP|<fbsym>FBgn0013733==shot</fbsym> transcripts are expressed in the epidermis and at muscle attachment
| sites. In addition, they are expressed in the CNS and the PNS from
| embryonic stage 13. Only the transcripts encoding isoforms which include
| the actin binding domain are detected in the embryonic CNS.
CVBODP|in situ
|<t> E <a> epidermis <p>
|<t> E <a> muscle attachment site <p>
|<t> E | stage >=13 <a> embryonic central nervous system <p>
|<t> E | stage >=13 <a> embryonic peripheral nervous system <p>
}

REF
{
REFM|FBrf0105832
|Gregory and Brown
|1998
REFM|FBrf0125142
|Lee et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006196	SYM 1 shot<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 765
ID|FBtr0006196
SYM|shot<up>+</up>R
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>

REFDSR
{
RDID|FBrf0105940
|Strumpf and Volk
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0013733==shot</fbsym> transcripts are first detected in stage 11 embryos. During germ band
| retraction, transcripts are detected along the future segmental grooves and
| in small patches of cells in the middle of each hemi-segment. <fbsym>FBgn0013733==shot</fbsym>
| expression is restricted to ectodermally-derived cells.
ASM|in situ
CVBODP|in situ
|<t> E | stage >=11 <a> segmentally repeated <p>
|<t> E | stage >=11 <a> epidermis <p>
|<t> E | stage 16 <a> muscle attachment site <p>
}

REF
{
REFM|FBrf0105940
|Strumpf and Volk
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006205	SYM 1 m&agr;<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 3196
ID|FBtr0006205
SYM|m&agr;<up>+</up>RA
ASAL|<fbsym>FBal0067874==m&agr;<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0002732==m&agr;</fbsym>
ASPP|<fbsym>FBpp0003291==m&agr;<up>+</up>P138</fbsym>

REFDSR
{
RDID|FBrf0108082
|Wurmbach et al.
|1999
RNAT|mRNA
EXNSQ|1
BODP|<fbsym>m&agr;</fbsym> transcripts are expressed in the mesectoderm shortly before
| gastrulation. After gastrulation they are expressed in the neurectoderm and
| in the mesoderm in a highly dynamic pattern. In the eye disc, <fbsym>m&agr;</fbsym>
| transcripts are expressed within and posterior to the morphogenetic furrow.
| In the wing pouch, expression is observed in the presumptive intervein
| regions and in the wing margin. In the leg discs and the notal part of the
| wing disc, more generalized expression is observed with the highest levels
| in the proneural clusters.
ASM|in situ
CVBODP|in situ
|<t> E | stage 6,7 <a> mesectoderm <p>
|<t> E | stage >7 <a> neurectoderm <p>
|<t> E | stage >7 <a> mesoderm <p>
|<t> L | third instar <a> ventral thoracic disc <p>
|<t> L | third instar <a> eye disc <p>
|<t> L | third instar <a> morphogenetic furrow <p>
|<t> L | third instar <a> morphogenetic furrow | posterior to <p>
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> wing margin <p>
|<t> L | third instar <a> wing cell <p>
|<t> L | third instar <a> ventral thoracic disc <p>
|<t> L | third instar <a> proneural cluster <p>
|<t> L | third instar <a> proneural cluster <of> ventral thoracic disc <p>
|<t> L | third instar <a> proneural cluster <of> dorsal mesothoracic disc <p>
}

REFDSR
{
RDID|FBrf0123097
|Lai et al.
|2000
RNAT|mRNA
EXNSQ|1
BODP|<fbsym>m&agr;</fbsym> transcripts are expressed in third instar larval wing discs in
| sensory organ proneural clusters. In addition, <fbsym>m&agr;</fbsym> is expressed in a
| narrow stripe at the dorsoventral boundary of the wing pouch and along the
| wing vein borders. <fbsym>m&agr;</fbsym> transcripts are also expressed in eye discs in
| the morphogenetic furrow and posterior to it. <fbsym>m&agr;</fbsym> expression in the
| pupal wing is highly dynamic. Transcripts are detected at 8h APF in
| proximal campaniform sensilla and in the wing margin. At 24hr APF, they are
| expressed in thin rows of cells at all vein/intervein boundaries and remain
| present throughout the wing margin. By 30hr APF, transcripts are nearly
| gone from the margin, are absent from vein/intervein boundaries, and
| present in the wing veins themselves and in the non-vein wing blade tissue.
ASM|in situ
CVBODP|in situ
|<t> L | third instar <a> dorsal mesothoracic disc | restricted <p>
|<t> L | third instar <a> proneural cluster <of> dorsal mesothoracic disc <p>
|<t> L | third instar <a> wing vein <p>
|<t> L | third instar <a> eye disc <p>
|<t> L | third instar <a> morphogenetic furrow <p>
|<t> L | third instar <a> morphogenetic furrow | posterior to <p>
|<t> P | 8hr APF <a> sensillum campaniformium <of> wing <p>
|<t> P | 8-30hr APF <a> wing | restricted <p>
|<t> P | 30hr APF <a> wing vein <p>
|<t> P | 30hr APF <a> wing blade <p>
}

REF
{
REFM|FBrf0108082
|Wurmbach et al.
|1999
REFM|FBrf0123097
|Lai et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006207	SYM 1 Aats-glupro<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 464
ID|FBtr0006207
SYM|Aats-glupro<up>+</up>RA
ASAL|<fbsym>FBal0066329==Aats-glupro<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0005674==Aats-glupro</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0005674==Aats-glupro</fbsym> transcripts are expressed at equivalent levels in all
| embryonic tissues.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006212	SYM 1 Aats-trp<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 337
ID|FBtr0006212
SYM|Aats-trp<up>+</up>RB
ASAL|<fbsym>FBal0073277==Aats-trp<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0010803==Aats-trp</fbsym>
ASPP|<fbsym>FBpp0003293==Aats-trp<up>+</up>P430</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006215	SYM 1 Aats-trp<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 488
ID|FBtr0006215
SYM|Aats-trp<up>+</up>R
ASAL|<fbsym>FBal0073277==Aats-trp<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0010803==Aats-trp</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0010803==Aats-trp</fbsym> transcripts are abundantly expressed in the embryo in the
| salivary gland secretory cells.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval salivary gland <p>
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006217	SYM 1 Aats-tyr<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 549
ID|FBtr0006217
SYM|Aats-tyr<up>+</up>RA
ASAL|<fbsym>FBal0097808==Aats-tyr<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027080==Aats-tyr</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027080==Aats-tyr</fbsym> transcripts are at a transiently elevated level in the embryonic
| salivary gland that persists from ~embryonic stage 11-12.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006219	SYM 1 Aats-pro<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 450
ID|FBtr0006219
SYM|Aats-pro<up>+</up>RA
ASAL|<fbsym>FBal0097810==Aats-pro<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027082==Aats-pro</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027082==Aats-pro</fbsym> transcripts are expressed at equivalent levels in all embryonic tissues.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006220	SYM 1 Aats-met<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 450
ID|FBtr0006220
SYM|Aats-met<up>+</up>RA
ASAL|<fbsym>FBal0097811==Aats-met<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027083==Aats-met</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027083==Aats-met</fbsym> transcripts are expressed at equivalent levels in all embryonic tissues.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006221	SYM 1 Aats-lys<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 549
ID|FBtr0006221
SYM|Aats-lys<up>+</up>RA
ASAL|<fbsym>FBal0097812==Aats-lys<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027084==Aats-lys</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027084==Aats-lys</fbsym> transcripts are at a transiently elevated level in the embryonic
| salivary gland that persists from ~embryonic stage 11-12.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006222	SYM 1 Aats-leu<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 440
ID|FBtr0006222
SYM|Aats-leu<up>+</up>RA
ASAL|<fbsym>FBal0097813==Aats-leu<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027085==Aats-leu</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027085==Aats-leu</fbsym> transcripts are expressed at equivalent levels in all tissues.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006224	SYM 1 Aats-his<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 477
ID|FBtr0006224
SYM|Aats-his<up>+</up>RA
ASAL|<fbsym>FBal0097815==Aats-his<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027087==Aats-his</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027087==Aats-his</fbsym> transcripts are expressed at a high level in embryonic muscle
| precursor cells.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval muscle system <p>
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006225	SYM 1 Aats-gly<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 549
ID|FBtr0006225
SYM|Aats-gly<up>+</up>RA
ASAL|<fbsym>FBal0097816==Aats-gly<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027088==Aats-gly</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027088==Aats-gly</fbsym> transcripts are at a transiently elevated level in the embryonic
| salivary gland that persists from ~embryonic stage 11-12.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006227	SYM 1 Aats-cys<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 452
ID|FBtr0006227
SYM|Aats-cys<up>+</up>RA
ASAL|<fbsym>FBal0097819==Aats-cys<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027091==Aats-cys</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027091==Aats-cys</fbsym> transcripts are expressed at an equivalent level in all embryonic tissues.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006228	SYM 1 Aats-asn<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 549
ID|FBtr0006228
SYM|Aats-asn<up>+</up>RA
ASAL|<fbsym>FBal0097820==Aats-asn<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027092==Aats-asn</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027092==Aats-asn</fbsym> transcripts are at a transiently elevated level in the embryonic
| salivary gland that persists from ~embryonic stage 11-12.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006229	SYM 1 Aats-arg<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 549
ID|FBtr0006229
SYM|Aats-arg<up>+</up>RA
ASAL|<fbsym>FBal0097821==Aats-arg<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0027093==Aats-arg</fbsym>

REFDSR
{
RDID|FBrf0108275
|Seshaiah and Andrew
|1999
RNAT|mRNA
BODP|<fbsym>FBgn0027093==Aats-arg</fbsym> transcripts are at a transiently elevated level in the embryonic
| salivary gland that persists from ~embryonic stage 11-12.
ASM|in situ
CVBODP|in situ
|<t> E <a> embryonic/larval salivary gland <p>
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0108275
|Seshaiah and Andrew
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006233	SYM 1 Shab<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 306
ID|FBtr0006233
SYM|Shab<up>+</up>R
ASAL|<fbsym>FBal0068313==Shab<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0003383==Shab</fbsym>
ASPP|<fbsym>FBpp0003295==Shab<up>+</up>P955</fbsym>

REFDSR
{
RDID|FBrf0109885
|Hegde et al.
|1999
RNAT|mRNA
}

REF
{
REFM|FBrf0109885
|Hegde et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006258	SYM 1 BobC<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 310
ID|FBtr0006258
SYM|BobC<up>+</up>RA
ASAL|<fbsym>FBal0116082==BobC<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0040485==BobC</fbsym>
ASPP|<fbsym>FBpp0003314==BobC<up>+</up>P78</fbsym>

REFDSR
{
RDID|FBrf0123097
|Lai et al.
|2000
RNAT|mRNA
EXNSQ|1
}

REF
{
REFM|FBrf0123097
|Lai et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006259	SYM 1 BobB<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 310
ID|FBtr0006259
SYM|BobB<up>+</up>RA
ASAL|<fbsym>FBal0116083==BobB<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0040486==BobB</fbsym>
ASPP|<fbsym>FBpp0003315==BobB<up>+</up>P78</fbsym>

REFDSR
{
RDID|FBrf0123097
|Lai et al.
|2000
RNAT|mRNA
EXNSQ|1
}

REF
{
REFM|FBrf0123097
|Lai et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006260	SYM 1 BobA<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 310
ID|FBtr0006260
SYM|BobA<up>+</up>RA
ASAL|<fbsym>FBal0116084==BobA<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0040487==BobA</fbsym>
ASPP|<fbsym>FBpp0003316==BobA<up>+</up>P78</fbsym>

REFDSR
{
RDID|FBrf0123097
|Lai et al.
|2000
RNAT|mRNA
EXNSQ|1
}

REF
{
REFM|FBrf0123097
|Lai et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006269	SYM 1 shot<up>+</up>RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 301
ID|FBtr0006269
SYM|shot<up>+</up>RC
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>
ASPP|<fbsym>FBpp0003325==shot<up>+</up>PC</fbsym>

REFDSR
{
RDID|FBrf0125142
|Lee et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0125142
|Lee et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006270	SYM 1 shot<up>+</up>RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 301
ID|FBtr0006270
SYM|shot<up>+</up>RD
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>
ASPP|<fbsym>FBpp0003326==shot<up>+</up>PD</fbsym>

REFDSR
{
RDID|FBrf0125142
|Lee et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0125142
|Lee et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006271	SYM 1 shot<up>+</up>RE	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 304
ID|FBtr0006271
SYM|shot<up>+</up>RE
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>
ASPP|<fbsym>FBpp0003327==shot<up>+</up>P5201</fbsym>

REFDSR
{
RDID|FBrf0125142
|Lee et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0125142
|Lee et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006272	SYM 1 shot<up>+</up>RF	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 301
ID|FBtr0006272
SYM|shot<up>+</up>RF
ASAL|<fbsym>FBal0071047==shot<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0013733==shot</fbsym>
ASPP|<fbsym>FBpp0003328==shot<up>+</up>PF</fbsym>

REFDSR
{
RDID|FBrf0125142
|Lee et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0125142
|Lee et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006284	SYM 1 &kgr;B-Ras<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 335
ID|FBtr0006284
SYM|&kgr;B-Ras<up>+</up>RA
ASAL|<fbsym>FBal0116105==&kgr;B-Ras<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0040513==&kgr;B-Ras</fbsym>
ASPP|<fbsym>FBpp0003340==&kgr;B-Ras<up>+</up>P202</fbsym>

REFDSR
{
RDID|FBrf0125465
|Fenwick et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0125465
|Fenwick et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006290	SYM 1 endos<up>+</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 6 Jan 2005	RESZ 750
ID|FBtr0006290
SYM|endos<up>+</up>RA
SYN|l(3)S067006<up>+</up>RA
ASAL|<fbsym>FBal0134574==endos<up>+</up></fbsym>
DT|6 Jan 2005
|21 Nov 2000
ASGN|<fbsym>FBgn0061515==endos</fbsym>

REFDSR
{
RDID|FBrf0127030
|Burmester et al.
|2000
RNAT|mRNA
BODP|<fbsym>FBgn0026212==l(3)S067006</fbsym> expression was deduced from lacZ expression and was observed
| in third instar larvae in brain, proventriculus, and the Malpighian tubules.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> Malpighian tubule <p>
|<t> L | third instar <a> larval brain <p>
|<t> L | third instar <a> embryonic/larval proventriculus <p>
}

REF
{
REFM|FBrf0127030
|Burmester et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006313	SYM 1 sbb<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 1004
ID|FBtr0006313
SYM|sbb<up>+</up>R
ASAL|<fbsym>FBal0095934==sbb<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0010575==sbb</fbsym>

REFDSR
{
RDID|FBrf0128690
|Yang et al.
|2000
RNAT|mRNA
BODP|<fbsym>FBgn0010575==sbb</fbsym> transcripts are expressed in embryos before gastrulation and then in
| the central nervous system. In larvae, expression is observed in the
| nervous system including the brain, the optic lobes, the ring gland, and
| the medial region of theventral ganglion. Expression is also observed in
| the eye-antennal, wing and leg discs.
CVBODP|in situ
|<t> E | early <a>  <p> ubiquitous
|<t> E <a> embryonic central nervous system <p>
|<t> L <a> eye-antennal disc <p>
|<t> L <a> dorsal mesothoracic disc <p>
|<t> L <a> ventral thoracic disc <p>
|<t> L <a> ring gland <p>
|<t> L <a> larval brain <p>
|<t> L <a> larval central nervous system <p>
|<t> L <a> larval optic lobe <p>
|<t> L <a> larval ventral ganglion | medial <p>
}

REF
{
REFM|FBrf0128690
|Yang et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006328	SYM 1 Nak<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 395
ID|FBtr0006328
SYM|Nak<up>+</up>R
ASAL|<fbsym>FBal0075605==Nak<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0015772==Nak</fbsym>

REFDSR
{
RDID|FBrf0099990
|Chien et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0015772==Nak</fbsym> transcripts are ubiquitously distributed in embryos.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p> ubiquitous
}

REF
{
REFM|FBrf0099990
|Chien et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006353	SYM 1 Khc::nod<up>Scer\UAS.T:Ecol\lacZ</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein distribution, binary	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 1013
ID|FBtr0006353
SYM|Khc::nod<up>Scer\UAS.T:Ecol\lacZ</up>RA
ASAL|<fbsym>FBal0058629==Khc::nod<up>Scer\UAS.T:Ecol\lacZ</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0001538==P{UAS-Khc::nod::lacZ}</fbsym>
|<fbsym>FBmc0001425==pP{UAS-Khc::nod::lacZ}</fbsym>
ASGN|<fbsym>FBgn0019967==Khc::nod</fbsym>

REFDSR
{
RDID|FBrf0111985
|Mosley-Bishop et al.
|1999
RNAT|mRNA
PCL|Marker for minus ends of microtubules.
BODP|This construct (where the <fbsym>FBgn0001308==Khc</fbsym> head domain has been replaced by the <fbsym>FBgn0002948==nod</fbsym>
| head domain) is a marker for minus ends of microtubules, and localizes to
| nuclei in developing facets.
MRK|microtubule
ASM|transcript distribution deduced from reporter protein distribution, binary
|system (Gal4 UAS)
CVBODP|transcript distribution deduced from reporter protein distribution, binary system (Gal4 UAS)
|<t> L | third instar <a> nucleus <of> photoreceptor cell <p>
CVCEL|nucleus
|microtubule
}

REF
{
REFM|FBrf0111985
|Mosley-Bishop et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006354	SYM 1 Khc<up>Scer\UAS.T:Ecol\lacZ</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein distribution, binary	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 798
ID|FBtr0006354
SYM|Khc<up>Scer\UAS.T:Ecol\lacZ</up>RA
ASAL|<fbsym>FBal0058618==Khc<up>Scer\UAS.T:Ecol\lacZ</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0001539==P{UAS-Khc::lacZ}</fbsym>
ASGN|<fbsym>FBgn0001308==Khc</fbsym>

REFDSR
{
RDID|FBrf0111985
|Mosley-Bishop et al.
|1999
RNAT|mRNA
PCL|Marker for plus ends of microtubules.
BODP|This construct is a marker for plus ends of microtubules, and localizes
| apically in developing facets.
MRK|microtubule
ASM|transcript distribution deduced from reporter protein distribution, binary
|system (Gal4 UAS)
CVBODP|transcript distribution deduced from reporter protein distribution, binary system (Gal4 UAS)
|<t> L | third instar <a> photoreceptor cell | apical <p>
CVCEL|microtubule
}

REF
{
REFM|FBrf0111985
|Mosley-Bishop et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006372	SYM 1 qtc<up>+</up>RA	TRL 1 2.4	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 1256
ID|FBtr0006372
SYM|qtc<up>+</up>RA
ASAL|<fbsym>FBal0101934==qtc<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0028572==qtc</fbsym>
ASPP|<fbsym>FBpp0003398==qtc<up>+</up>P566</fbsym>

REFDSR
{
RDID|FBrf0127087
|Gaines et al.
|2000
RNAT|mRNA
TRL|2.4 (northern blot)
EXNSQ|1-5
BODP|<fbsym>FBgn0028572==qtc</fbsym> expression is detected in olfactory organs, the CNS, and the male
| reproductive tract.
ASM|northern blot
|in situ
CVBODP|in situ
|<t> A <a> olfactory sensory organ <p>
|<t> A <a> antennal segment 2 <p>
|<t> A <a> antennal segment 3 <p>
|<t> A <a> maxillary palpus <p>
|<t> A <a> central nervous system <of> adult head <p>
|<t> A <a> retina <p>
|<t> A <a> optic lobe <p>
|<t> A <a> cerebral cortex <p>
|<t> A <a> suboesophageal ganglion <p>
|<t> A | male <a> testis <p>
|<t> A | male <a> ejaculatory bulb <p>
|<t> A | female <a> female reproductive system | restricted <p>
|northern blot
|<t> A | female <a> adult head <p>
|<t> A | male <a> adult head <p>
|<t> A | female <a> antenna <p>
|<t> A | male <a> antenna <p>
CC|The two <fbsym>FBgn0028572==qtc</fbsym> cDNA clones isolated from head cDNA libraries differ in the
| inclusion of exon 4, and in their polyadenylation sites.
}

REF
{
REFM|FBrf0127087
|Gaines et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006373	SYM 1 qtc<up>+</up>RB	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 1232
ID|FBtr0006373
SYM|qtc<up>+</up>RB
ASAL|<fbsym>FBal0101934==qtc<up>+</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0028572==qtc</fbsym>
ASPP|<fbsym>FBpp0003399==qtc<up>+</up>PB</fbsym>

REFDSR
{
RDID|FBrf0127087
|Gaines et al.
|2000
RNAT|mRNA
EXNSQ|1-3,5
BODP|<fbsym>FBgn0028572==qtc</fbsym> expression is detected in olfactory organs, the CNS, and the male
| reproductive tract.
ASM|northern blot
|in situ
CVBODP|in situ
|<t> A <a> olfactory sensory organ <p>
|<t> A <a> antennal segment 2 <p>
|<t> A <a> antennal segment 3 <p>
|<t> A <a> maxillary palpus <p>
|<t> A <a> central nervous system <of> adult head <p>
|<t> A <a> retina <p>
|<t> A <a> optic lobe <p>
|<t> A <a> cerebral cortex <p>
|<t> A <a> suboesophageal ganglion <p>
|<t> A | male <a> testis <p>
|<t> A | male <a> ejaculatory bulb <p>
|<t> A | female <a> female reproductive system | restricted <p>
|northern blot
|<t> A | female <a> adult head <p>
|<t> A | male <a> adult head <p>
|<t> A | female <a> antenna <p>
|<t> A | male <a> antenna <p>
CC|The two <fbsym>FBgn0028572==qtc</fbsym> cDNA clones isolated from head cDNA libraries differ in the
| inclusion of exon 4, and in their polyadenylation sites.
}

REF
{
REFM|FBrf0127087
|Gaines et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006397	SYM 1 Ecol\lacZ<up>eve.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 578
ID|FBtr0006397
SYM|Ecol\lacZ<up>eve.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0093134==Ecol\lacZ<up>eve.T:Btau\MAPT</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0010032==P{eve'-tau/lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0104897
|Wolf et al.
|1998
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 17 <a> RP2 neuron <p>
|<t> E | stage 17 <a> aCC neuron <p>
ASCRGN|<fbsym>FBgn0000606==eve</fbsym>
}

REF
{
REFM|FBrf0104897
|Wolf et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006421	SYM 1 copia-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 373
ID|FBtr0006421
SYM|copia-RA
SYN|VLP H-RNA
DT|21 Nov 2000
|21 Nov 2000

REFDSR
{
RDID|FBrf0043352
|Emori et al.
|1985
RNAT|copia
VPR|experimental
CC|Isolated from VLP (virus-like particles) from Drosophila cell culture cells;
| assumed to be retroviral replicative form. Observed heterogenous 5' ends
| (by primer extension).
}

REF
{
REFM|FBrf0043352
|Emori et al.
|1985
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006434	SYM 1 Ecol\lacZ<up>copia.LTR</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 523
ID|FBtr0006434
SYM|Ecol\lacZ<up>copia.LTR</up>RA
ASAL|<fbsym>FBal0043959==Ecol\lacZ<up>copia.LTR</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049370
|Han et al.
|1989
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CC|Expressed constitutively in cell culture lines.  Used as control for
| quantitative assays of transcription (comparing CAT:&bgr;gal levels) in
| Schneider L2 tissue culture cells.
}

REF
{
REFM|FBrf0049370
|Han et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006445	SYM 1 Ecol\lacZ<up>Ubx.PBX</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 1187
ID|FBtr0006445
SYM|Ecol\lacZ<up>Ubx.PBX</up>RA
ASAL|<fbsym>FBal0047568==Ecol\lacZ<up>Ubx.PBX</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0005507==P{Ubx-lacZ.PBX}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053761
|Zhang et al.
|1991
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | blastoderm <a>  <p> 21-47% egg length
}

REFDSR
{
RDID|FBrf0053888
|Muller and Bienz
|1991
RNAT|mRNA
BODP|In embryos, from stage 7, expressed in even-numbered parasegments 6-12;
| expression highest in anterior portion of each parasegment, with a sharp
| border at the parasegment boundary; expression strong in ectoderm, weak in mesoderm.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=7 <a> parasegment 6, 8, 10, 12 | anterior <p>
|<t> E | stage >=9 <a> ectoderm <of> parasegment 6, 8, 10, 12  <p>
|<t> E | stage >=9 <a> mesoderm <of> parasegment 7-13  <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REF
{
REFM|FBrf0053761
|Zhang et al.
|1991
REFM|FBrf0053888
|Muller and Bienz
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006447	SYM 1 Ecol\lacZ<up>Ubx.BXD</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 1116
ID|FBtr0006447
SYM|Ecol\lacZ<up>Ubx.BXD</up>RA
ASAL|<fbsym>FBal0047565==Ecol\lacZ<up>Ubx.BXD</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0005504==P{Ubx-lacZ.BXD}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0053888
|Muller and Bienz
|1991
RNAT|mRNA
BODP|In embryos, from stage 9, expressed in parasegments 2-14; initially
| expressed in narrow stripe at posterior boundary of each parasegment;
| expression spreads anteriorly within parasegment, but (especially in
| parasegments 7-14) remains strongest in the posterior.  In later embryos,
| stong expression in the CNS; within each parasegment, is more extensive in
| parasegments 2-6, more restricted in parasegments 7-14.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=9 <a> parasegment 2-14 | segmentally repeated pattern <p>
|<t> E | stage >=9 <a> parasegment 7-14 | posterior <p>
|<t> E | stage >=13 <a> embryonic central nervous system <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REF
{
REFM|FBrf0053888
|Muller and Bienz
|1991
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006448	SYM 1 Ecol\lacZ<up>Kr.amn</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 21 Nov 2000	RESZ 517
ID|FBtr0006448
SYM|Ecol\lacZ<up>Kr.amn</up>RA
ASAL|<fbsym>FBal0041658==Ecol\lacZ<up>Kr.amn</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0004374==P{Kr-lacZ.B}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055564
|Ferguson and Anderson
|1992
RNAT|mRNA
MRK|amnioserosa
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 15 <a> amnioserosa <p>
}

REF
{
REFM|FBrf0055564
|Ferguson and Anderson
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006449	SYM 1 Ecol\lacZ<up>eve.MSE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 1511
ID|FBtr0006449
SYM|Ecol\lacZ<up>eve.MSE</up>RA
ASAL|<fbsym>FBal0041346==Ecol\lacZ<up>eve.MSE</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0004188==P{MSE-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055953
|Jiang et al.
|1992
RNAT|mRNA
BODP|In early embryo, high levels of expression in region corresponding to the
| second stripe of the wild-type <fbsym>FBgn0000606==eve</fbsym> expression pattern; very low levels of
| expression outside the <fbsym>FBgn0000606==eve</fbsym> stripe 2 region.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | cellular blastoderm <a>  <p> anterior <and> stripe
ASCRGN|<fbsym>FBgn0000606==eve</fbsym>
CC|Search term: <fbsym>FBgn0000606==eve</fbsym> stripe 2
}

REFDSR
{
RDID|FBrf0055962
|Small et al.
|1992
RNAT|mRNA
BODP|In early embryos, expression initially detected in a broad region that spans
| nearly the entire anterior half of the embryo; after a short time, refined
| into a stripe.  Shown to correspond to the second <fbsym>FBgn0000606==eve</fbsym> stripe, with some
| quantitative differences in expression along the dorsal-ventral axis.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | early <a>  <p> anterior
ASCRGN|<fbsym>FBgn0000606==eve</fbsym>
CC|MSE = minimal stripe element
}

REF
{
REFM|FBrf0055953
|Jiang et al.
|1992
REFM|FBrf0055962
|Small et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006450	SYM 1 Ecol\lacZ<up>Ubx.Bhz</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 29 May 2001	RESZ 1108
ID|FBtr0006450
SYM|Ecol\lacZ<up>Ubx.Bhz</up>RA
ASAL|<fbsym>FBal0042159==Ecol\lacZ<up>Ubx.Bhz</up></fbsym>
DT|29 May 2001
|21 Nov 2000
ASTP|<fbsym>FBtp0004599==P{Bhz}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0058154
|Thuringer et al.
|1993
RNAT|mRNA
BODP|In 13-15 hour embryos, expressed strongly in the visceral mesoderm of
| parasegment 7; lower level of expression in visceral mesoderm of
| parasegments 3 and 8; very low levels in parasegments 6 and 9.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 16 <a> visceral mesoderm <of> parasegment 7 <p>
|<t> E | stage 16 <a> visceral mesoderm <of> parasegment 3 <p>
|<t> E | stage 16 <a> visceral mesoderm <of> parasegment 6..9 <p>
}

REFDSR
{
RDID|FBrf0093200
|Riese et al.
|1997
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> visceral mesoderm <of> midgut <p>
}

REF
{
REFM|FBrf0058154
|Thuringer et al.
|1993
REFM|FBrf0093200
|Riese et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006461	SYM 1 Ecol\lacZ<up>eg.T:Khc</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 21 Nov 2000	RESZ 1225
ID|FBtr0006461
SYM|Ecol\lacZ<up>eg.T:Khc</up>RA
ASAL|<fbsym>FBal0048835==Ecol\lacZ<up>eg.T:Khc</up></fbsym>
DT|21 Nov 2000
|21 Nov 2000
ASTP|<fbsym>FBtp0005844==P{eg-kinesin-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0086454
|Higashijima et al.
|1996
RNAT|mRNA
MRK|neuroblasts of ventral nervous system | subset
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> neuroblasts of ventral nervous system | subset <p>
|<t> E | stage 10-11 <a> neuroblast NB2-4 <p>
|<t> E | stage 10-11 <a> neuroblast NB3-3 <p>
|<t> E | stage 11 <a> neuroblast NB7-3 <p>
|<t> E |stage 11 <a> neuroblast NB6-4 <p>
ASCRGN|<fbsym>FBgn0000560==eg</fbsym>
CC|In embryos, kinesin tag produces strong cellular expression; transported
| into axons.  Exploited persistence of protein activity for lineage analysis
| of expressing CNS neuroblasts.
}

REFDSR
{
RDID|FBrf0090690
|Matsuzaki and Saigo
|1996
RNAT|mRNA
MRK|neuroblast NB6-4
|neuroblast NB7-3
|neuroblast NB2-4
|neuroblast NB3-3
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0086454
|Higashijima et al.
|1996
REFM|FBrf0090690
|Matsuzaki and Saigo
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006504	SYM 1 Ecol\lacZ<up>Ubx.PdC</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 29 May 2001	RESZ 1180
ID|FBtr0006504
SYM|Ecol\lacZ<up>Ubx.PdC</up>RA
ASAL|<fbsym>FBal0065771==Ecol\lacZ<up>Ubx.PdC</up></fbsym>
DT|29 May 2001
|21 Nov 2000
ASTP|<fbsym>FBtp0008692==P{GAL4-lacZ-Ubx(-FRT).dC}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0098380
|de Celis and Bray
|1997
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
RNAT|mRNA
BODP|Used for clonal analysis in wing disc; <fbsym>FBgn0014447==Ecol\lacZ</fbsym> serves as marker for
| <fbsym>FBgn0014445==Scer\GAL4</fbsym>-expressing cells.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> dorsal mesothoracic disc <p>
|transcript distribution deduced from reporter protein
|<t> L | third instar <a> dorsal mesothoracic disc <p>
ASCRGN|<fbsym>FBgn0003944==Ubx</fbsym>
}

REFDSR
{
RDID|FBrf0108517
|Lawrence et al.
|1999
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A <a> adult abdomen <p>
|<t> A <a> cuticle <of> adult abdomen <p>
}

REF
{
REFM|FBrf0098380
|de Celis and Bray
|1997
REFM|FBrf0108517
|Lawrence et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006548	SYM 1 Atp&agr;<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 22 Dec 2000	RESZ 292
ID|FBtr0006548
SYM|Atp&agr;<up>+</up>R
ASAL|<fbsym>FBal0066408==Atp&agr;<up>+</up></fbsym>
DT|22 Dec 2000
|22 Dec 2000
ASGN|<fbsym>FBgn0002921==Atp&agr;</fbsym>

REFDSR
{
RDID|FBrf0100024
|Feng et al.
|1997
RNAT|mRNA
VPR|experimental
EXNSQ|1-10
}

REF
{
REFM|FBrf0100024
|Feng et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006551	SYM 1 Atp&agr;-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 22 Dec 2000	RESZ 636
ID|FBtr0006551
SYM|Atp&agr;-RB
ASAL|<fbsym>FBal0066408==Atp&agr;<up>+</up></fbsym>
DT|22 Dec 2000
|22 Dec 2000
ASGN|<fbsym>FBgn0002921==Atp&agr;</fbsym>
ASPP|<fbsym>FBpp0003430==Atp&agr;-P2</fbsym>

REFDSR
{
RDID|FBrf0103046
|Sun et al.
|1998
RNAT|mRNA
CC|The amino acid sequence of <fbsym>Atp&agr;</fbsym> protein predicted from this cDNA
| diverges from previous predictions at the amino terminus. This form was
| detected in all embryos, larvae, pupae, and adults by RNAse protection
| detection while the previously reported form (FBrf0049610) was not.
}

REF
{
REFM|FBrf0103046
|Sun et al.
|1998
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006565	SYM 1 Atp&agr;-RA	TRL 1 3.6	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Sep 2001	RESZ 1260
ID|FBtr0006565
SYM|Atp&agr;-RA
SYN|Atpalpha<up>+</up>R3.6
|Da-47
ASAL|<fbsym>FBal0066408==Atp&agr;<up>+</up></fbsym>
DT|5 Sep 2001
|22 Dec 2000
ASGN|<fbsym>FBgn0002921==Atp&agr;</fbsym>
ASPP|<fbsym>FBpp0003428==Atp&agr;-P1</fbsym>

REFDSR
{
RDID|FBrf0049610
|Lebovitz et al.
|1989
RNAT|mRNA
TRL|3.6 (northern blot)
BODP|<fbsym>Atp&agr;</fbsym> transcripts are found in all body parts and stages examined by
| northern blots. The smaller transcripts are found in greater abundance than
| the larger transcript in adult abdomens, embryos, larval salivary glands,
| and larval Malpighian tubules and the reverse is true in the adult head and
| larval brain. The three transcripts are found at roughly equal abundance in
| the adult thorax.
ASM|northern blot
CVBODP|northern blot
|<t> L <a> larval brain <p>
|<t> L <a> Malpighian tubule <p>
|<t> L <a> embryonic/larval salivary gland <p>
|<t> A <a> adult thorax <p>
|<t> A <a> adult head <p>
|<t> A <a> abdomen <p>
|<t> E-A <a>  <p>
CC|Several polyadenylation sites are thought to be used for <fbsym>Atp&agr;</fbsym> transcription.
}

REFDSR
{
RDID|FBrf0049751
|Varadi et al.
|1989
RNAT|mRNA
}

REF
{
REFM|FBrf0049610
|Lebovitz et al.
|1989
REFM|FBrf0049751
|Varadi et al.
|1989
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006574	SYM 1 aret<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 22 Dec 2000	RESZ 696
ID|FBtr0006574
SYM|aret<up>+</up>R
ASAL|<fbsym>FBal0068657==aret<up>+</up></fbsym>
DT|22 Dec 2000
|22 Dec 2000
ASGN|<fbsym>FBgn0000114==aret</fbsym>
ASPP|<fbsym>FBpp0003438==aret-P2</fbsym>

REFDSR
{
RDID|FBrf0098905
|Webster et al.
|1997
RNAT|mRNA
BODP|Female-specific <fbsym>FBgn0000114==aret</fbsym> transcripts are expressed in all of the germ cells in
| region 2A of the germarium and continue to be found throughout the
| cytoplasm of nurse cells and the oocyte as oogenesis proceeds.
ASM|northern blot
CVBODP|in situ
|<t> O,A <a> nurse cell <p>
|<t> O,A <a> oocyte <p>
|<t> O,A | >= germarium region 2a <a>  <p>
|<t> O,A <a> germarium <p>
}

REF
{
REFM|FBrf0098905
|Webster et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006595	SYM 1 lt<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 23 Dec 2000	RESZ 1479
ID|FBtr0006595
SYM|lt<up>+</up>R
ASAL|<fbsym>FBal0070558==lt<up>+</up></fbsym>
DT|23 Dec 2000
|23 Dec 2000
ASGN|<fbsym>FBgn0002566==lt</fbsym>

REFDSR
{
RDID|FBrf0103059
|Warner et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0002566==lt</fbsym> transcripts are abundant in unfertilized eggs, and are present at high
| levels and ubiquitously all through embryogenesis.
ASM|northern blot
|in situ
CVBODP|northern blot
|<t> O | unfertilized egg <a>  <p>
|<t> E <a>  <p>
|in situ
|<t> O | unfertilized egg <a>  <p> ubiquitous
|<t> E <a>  <p> ubiquitous
CC|Transcripts in addition to the 3.0 and 3.3 kb classes likely exist.
}

REFDSR
{
RDID|FBrf0103060
|Weiler and Wakimoto
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0002566==lt</fbsym> transcripts are detected in all third instar larval tissues examined.
| In imaginal discs, cytoplasmic expression is uniform in all cells. In
| polytene tissue such as the gut, fat body and salivary glands, expression
| is detected in a focusof nuclear RNA representing the site of transcription.
ASM|in situ
CVBODP|in situ
|<t> L | third instar <a> larval brain <p>
|<t> L | third instar <a> larval digestive system <p>
|<t> L | third instar <a> embryonic/larval circulatory system <p>
|<t> L | third instar <a> imaginal disc <p>
|<t> L | third instar <a> Malpighian tubule <p>
|<t> L | third instar <a> embryonic/larval fat body <p>
|<t> L | third instar <a> gonad <p>
}

REF
{
REFM|FBrf0103059
|Warner et al.
|1998
REFM|FBrf0103060
|Weiler and Wakimoto
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006600	SYM 1 cher<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 23 Dec 2000	RESZ 439
ID|FBtr0006600
SYM|cher<up>+</up>RA
SYN|transcript A
ASAL|<fbsym>FBal0068752==cher<up>+</up></fbsym>
DT|23 Dec 2000
|23 Dec 2000
ASGN|<fbsym>FBgn0014141==cher</fbsym>
ASPP|<fbsym>FBpp0003455==cher<up>+</up>P2210</fbsym>

REFDSR
{
RDID|FBrf0112043
|Sokol and Cooley
|1999
RNAT|mRNA
EXNSQ|1-17
CC|Transcripts of 7.5, 5, and 3 kb are detected in Northern blots with a
| transcript A probe.
}

REF
{
REFM|FBrf0112043
|Sokol and Cooley
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006601	SYM 1 cher<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 23 Dec 2000	RESZ 427
ID|FBtr0006601
SYM|cher<up>+</up>RB
SYN|transcript B
ASAL|<fbsym>FBal0068752==cher<up>+</up></fbsym>
DT|23 Dec 2000
|23 Dec 2000
ASGN|<fbsym>FBgn0014141==cher</fbsym>
ASPP|<fbsym>FBpp0003456==cher<up>+</up>P838</fbsym>

REFDSR
{
RDID|FBrf0112043
|Sokol and Cooley
|1999
RNAT|mRNA
CC|Transcripts of 7.5, 5, and 3 kb are detected in Northern blots with a
| transcript A probe.
}

REF
{
REFM|FBrf0112043
|Sokol and Cooley
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006625	SYM 1 Ecol\lacZ<up>rost.PP</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Dec 2000	RESZ 2121
ID|FBtr0006625
SYM|Ecol\lacZ<up>rost.PP</up>RA
ASAL|<fbsym>FBal0063918==Ecol\lacZ<up>rost.PP</up></fbsym>
DT|23 Dec 2000
|23 Dec 2000
ASTP|<fbsym>FBtp0008508==P{rost-lacZ.P}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0096049
|Paululat et al.
|1997
RNAT|mRNA
BODP|Reporter expression driven by a short <fbsym>FBgn0011705==rost</fbsym> promoter fragment is detected
| first in stage 10-11 embryos, in a segmentally repeated pattern that
| resembles the pattern of muscle founder cells in the somatic mesoderm.
| First and strongest expression is in the dorsal mesoderm, at the site of
| dorsal muscle development. Weaker expression in the overlaying layer is
| likely due to fusion competent myoblast cells. Expression is later detected
| in dorsal, lateral and ventral positions, in what appear to be growing
| muscle fibers at the time the fusion between fusion competent cells and
| muscle founder cells occurs. At embryonic stage 15-16, single myotubes can
| be identified: the segmental border muscle (muscle 8) and two of the three
| ventral oblique muscles group (muscle 15-17), and some dorsal and
| dorsal-lateral muscles.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage >=10-11 <a> muscle founder cell | subset <p> segmentally repeated
|<t> E | stage >=10-11 <a> fusion competent cell | subset <p>
|<t> E | stage 13 <a> muscle fiber <p>
|<t> E | stage 15-16 <a> abdominal ventral oblique muscle 4 <p>
|<t> E | stage 15-16 <a> abdominal ventral oblique muscle 5 <p>
|<t> E | stage 15-16 <a> abdominal ventral oblique muscle 6 <p>
|<t> E | stage 15-16 <a> abdominal segment border muscle <p>
|<t> E | stage 15-16 <a> embryonic/larval somatic muscle <p> dorsal
|<t> E | stage 15-16 <a> embryonic/larval somatic muscle <p> dorso-lateral
ASCRGN|<fbsym>FBgn0011705==rost</fbsym>
CC|The short <fbsym>FBgn0011705==rost</fbsym> promoter drives expression in only a subset of the muscle
| founder cells expressing <fbsym>FBgn0011705==rost</fbsym> transcript.
}

REF
{
REFM|FBrf0096049
|Paululat et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006677	SYM 1 ATPsyn-&ggr;<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 12 Feb 2001	RESZ 341
ID|FBtr0006677
SYM|ATPsyn-&ggr;<up>+</up>RA
ASAL|<fbsym>FBal0079279==ATPsyn-&ggr;<up>+</up></fbsym>
DT|12 Feb 2001
|12 Feb 2001
ASGN|<fbsym>FBgn0020235==ATPsyn-&ggr;</fbsym>
ASPP|<fbsym>FBpp0003502==ATPsyn-&ggr;<up>+</up>PA</fbsym>

REFDSR
{
RDID|FBrf0106292
|Caggese et al.
|1999
RNAT|mRNA
}

REF
{
REFM|FBrf0106292
|Caggese et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006681	SYM 1 Scs&agr;<up>+</up>RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 12 Feb 2001	RESZ 325
ID|FBtr0006681
SYM|Scs&agr;<up>+</up>RA
ASAL|<fbsym>FBal0074212==Scs&agr;<up>+</up></fbsym>
DT|12 Feb 2001
|12 Feb 2001
ASGN|<fbsym>FBgn0004888==Scs&agr;</fbsym>
ASPP|<fbsym>FBpp0003505==Scs&agr;<up>+</up>PA</fbsym>

REFDSR
{
RDID|FBrf0106292
|Caggese et al.
|1999
RNAT|mRNA
}

REF
{
REFM|FBrf0106292
|Caggese et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006707	SYM 1 hts<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 12 Feb 2001	RESZ 822
ID|FBtr0006707
SYM|hts<up>+</up>R
ASAL|<fbsym>FBal0069255==hts<up>+</up></fbsym>
DT|12 Feb 2001
|12 Feb 2001
ASGN|<fbsym>FBgn0004873==hts</fbsym>

REFDSR
{
RDID|FBrf0090875
|Zaccai and Lipshitz
|1996
RNAT|mRNA
BODP|<fbsym>FBgn0004873==hts</fbsym> transcripts are detected throughout the cytoplasm of stage 1-8
| oocytes. By stage 9, they are restricted to the cortex of the oocyte and by
| stage 10 they are limited to the anterior cortex of the oocyte where they
| are detected until stage 14. <fbsym>FBgn0004873==hts</fbsym> transcripts are also detected in nurse
| cells in stages 9 and 10 of oogenesis.
ASM|in situ
CVBODP|in situ
|<t> O,A | stage S1-S14 <a> oocyte <p>
|<t> O,A | stage S9,S10 <a> nurse cell <p>
|<t> O,A | stage S10-S14 <a> oocyte | anterior <p>
}

REF
{
REFM|FBrf0090875
|Zaccai and Lipshitz
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006718	SYM 1 vri-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 13 Feb 2001	RESZ 302
ID|FBtr0006718
SYM|vri-RB
ASAL|<fbsym>FBal0075863==vri<up>+</up></fbsym>
DT|13 Feb 2001
|13 Feb 2001
ARGS|FBgn0016076
ASGN|<fbsym>FBgn0016076==vri</fbsym>
ASPP|<fbsym>FBpp0002295==vri-P2</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|3,4
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006743	SYM 1 Rel<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 315
ID|FBtr0006743
SYM|Rel<up>+</up>R
ASAL|<fbsym>FBal0068236==Rel<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0014018==Rel</fbsym>

REFDSR
{
RDID|FBrf0123041
|Hedengren et al.
|1999
RNAT|mRNA
ASM|in situ
CVBODP|in situ
|<t> O, A <a> nurse cell <p>
}

REF
{
REFM|FBrf0123041
|Hedengren et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006746	SYM 1 hb<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 23 Apr 2001	RESZ 2202
ID|FBtr0006746
SYM|hb<up>+</up>R
ASAL|<fbsym>FBal0069239==hb<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0001180==hb</fbsym>

REFDSR
{
RDID|FBrf0047064
|Tautz et al.
|1987
RNAT|mRNA
BODP|<fbsym>FBgn0001180==hb</fbsym> transcripts are evenly distributed in embryos between egg deposition
| and the 8th nuclear division. After pole cell formation and up to cycle 11,
| <fbsym>FBgn0001180==hb</fbsym> transcripts are distributed in a gradient along the longitudinal axis.
| Zygotic <fbsym>FBgn0001180==hb</fbsym> transcripts are first observed at cycle 11. Transcripts
| accumulate over the nuclei between 55-100% egg length. At cycle 13, a
| second domain of expression is observed between 0-25% egg length. At stage
| 14, when cellularization begins, the domains retract from the poles and
| cover the region from 10-25% and 55-90% egg length. By mid stage 14, the
| anterior domain splits up into three sub-domains. These domains of <fbsym>FBgn0001180==hb</fbsym>
| expression do not overlap with the <fbsym>FBgn0001325==Kr</fbsym> expression domain. At gastrulation,
| the <fbsym>FBgn0001180==hb</fbsym> domain has broadened into the the thoracic region and overlaps
| with the <fbsym>FBgn0001325==Kr</fbsym> domain by about six cells. At germ band extension, <fbsym>FBgn0001180==hb</fbsym>
| transcripts fade in the anterior and posterior domains and begin to
| accumulate in the developing nervous system.
ASM|in situ
CVBODP|in situ
|<t> E | embryonic cycle 11-13 <a>  <p> 55-100% egg length
|<t> E | embryonic cycle 14 <a>  <p> 55-90% egg length
|<t> E | embryonic cycle 13 <a>  <p> 0-25% egg length
|<t> E | embryonic cycle 14 <a>  <p> 10-25% egg length
|<t> E | stage >8 <a> embryonic central nervous system <p>
}

REFDSR
{
RDID|FBrf0112045
|Sonoda and Wharton
|1999
RNAT|mRNA
CC|RNA-protein and protein-protein interaction assays indicate that <fbsym>FBgn0002962==nos</fbsym>
| protein forms a ternary complex with the RNA-binding domain of <fbsym>FBgn0003165==pum</fbsym>
| protein and the NREs (nanos response element) in the 3' UTR of maternal
| <fbsym>FBgn0001180==hb</fbsym> mRNA.
}

REF
{
REFM|FBrf0047064
|Tautz et al.
|1987
REFM|FBrf0112045
|Sonoda and Wharton
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006747	SYM 1 CycB<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 23 Apr 2001	RESZ 1916
ID|FBtr0006747
SYM|CycB<up>+</up>R
ASAL|<fbsym>FBal0066525==CycB<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0000405==CycB</fbsym>

REFDSR
{
RDID|FBrf0050634
|Whitfield et al.
|1989
RNAT|mRNA
BODP|<fbsym>FBgn0000405==CycB</fbsym> transcripts are abundant in precellular embryos and in adult females.
| A male specific transcript is also observed. <fbsym>FBgn0000405==CycB</fbsym> transcripts are first
| found uniformly throughout the embryo by in situ hybridization but by
| cycles 8-9 are becoming concentrated at the posterior pole. As somatic
| nuclei complete their syncytial mitotic cycles, <fbsym>FBgn0000405==CycB</fbsym> transcripts are
| associated with the cortex near nuclei. The cortical transcripts disappear
| abrubtly during cell formation. Transcripts either persist or continue to
| be made in pole cells during germ band elongation. In larvae, transcripts
| are detected in testes.
ASM|northern blot
|radioisotope in situ
CVBODP|northern blot
|<t> E | early <a>  <p>
|<t> A | female <a>  <p>
|<t> A | male <a>  <p>
|<t> E | early <a>  <p> posterior
|in situ
|<t> E <a> pole cell <p>
|<t> L <a> testis <p>
}

REFDSR
{
RDID|FBrf0055918
|Dalby and Glover
|1992
RNAT|mRNA
BODP|<fbsym>FBgn0000405==CycB</fbsym> transcripts are expressed during oogenesis. They are first detected
| in the germarium and are present in higher levels in the presumptive ooctye
| than surrounding cells until stage 7. They subsequently become dispersed in
| the cytoplasm of the oocyte as its volume increases. Transcription resumes
| in the nurse cells from stages 9 and 10. There is no concentration of
| <fbsym>FBgn0000405==CycB</fbsym> in the posterior pole at this time.
ASM|in situ
CVBODP|in situ
|<t> O,A <a> germarium <p>
|<t> O,A | <= stage S7 <a> oocyte <p>
|<t> O,A | stage S9, S10 <a> nurse cell <p>
}

REF
{
REFM|FBrf0050634
|Whitfield et al.
|1989
REFM|FBrf0055918
|Dalby and Glover
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006749	SYM 1 spdo<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1295
ID|FBtr0006749
SYM|spdo<up>+</up>R
ASAL|<fbsym>FBal0071124==spdo<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0011716==spdo</fbsym>

REFDSR
{
RDID|FBrf0102830
|Dye et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0011716==spdo</fbsym> transcripts are detected in embryos in all developmental stages. In
| addition to ubiquitous background expression, higher levels are detected in
| specific tissues, such as the CNS and the PNS. PNS specific expression is
| initially detected in stage 12-13 in 4 to 5 cells per hemisegment, and by
| stage 13 the levels of expression and the number of cells in the PNS
| expressing <fbsym>FBgn0011716==spdo</fbsym> have increased. Elevated expression in the lateral
| clusters is maintained only in the es support cells in stage 14-16 embryos,
| with highest levels where the 2 cells are in contact. The increase in
| PNS-specific expression at stage 13 correlates with the increase in levels
| of the 3.6 kb transcript in Northern blots.
ASM|in situ
CVBODP|in situ
|<t> E <a>  <p>
|<t> E | stage >=9-11<a> embryonic central nervous system | precursor <p>
|<t> E | stage >=12 <a> embryonic peripheral nervous system <p>
|<t> E | stage 14-16 <a> tormogen cell <p>
|<t> E | stage 14-16 <a> trichogen cell <p>
}

REF
{
REFM|FBrf0102830
|Dye et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006758	SYM 1 Ecol\lacZ<up>sal.ZA</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 608
ID|FBtr0006758
SYM|Ecol\lacZ<up>sal.ZA</up>RA
ASAL|<fbsym>FBal0101680==Ecol\lacZ<up>sal.ZA</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011586==P{sal-lacZ.ZA}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in the embryonic CNS, in both endogenous and ectopic patterns.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic central nervous system | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006759	SYM 1 Ecol\lacZ<up>sal.SE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 701
ID|FBtr0006759
SYM|Ecol\lacZ<up>sal.SE</up>RA
ASAL|<fbsym>FBal0101681==Ecol\lacZ<up>sal.SE</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011587==P{sal-lacZ.SE}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|In the larva, expression is detected in specific domains of the wing and
| haltere imaginal discs.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic epidermis <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006760	SYM 1 Ecol\lacZ<up>sal.AK</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 691
ID|FBtr0006760
SYM|Ecol\lacZ<up>sal.AK</up>RA
ASAL|<fbsym>FBal0098411==Ecol\lacZ<up>sal.AK</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011114==P{sal-lacZ.AK}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in the embryonic CNS and in the larval wing disc, in
| both endogenous and ectopic patterns.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic central nervous system | restricted <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006761	SYM 1 Ecol\lacZ<up>sal.IRU</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 857
ID|FBtr0006761
SYM|Ecol\lacZ<up>sal.IRU</up>RA
ASAL|<fbsym>FBal0101682==Ecol\lacZ<up>sal.IRU</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011588==P{sal-lacZ.IRU}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression in the prothoracic gland, and the leg and haltere discs match
| endogenous <fbsym>FBgn0004579==salm</fbsym> expression, while expression in the wing disc is ectopic
| with respect to endogenous <fbsym>FBgn0004579==salm</fbsym> expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> prothoracic gland <p>
|<t> L <a> ventral thoracic disc <p>
|<t> L <a> dorsal metathoracic disc <p>
|<t> L <a> dorsal mesothoracic disc <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006762	SYM 1 Ecol\lacZ<up>sal.LA</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1367
ID|FBtr0006762
SYM|Ecol\lacZ<up>sal.LA</up>RA
ASAL|<fbsym>FBal0098403==Ecol\lacZ<up>sal.LA</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011106==P{sal-lacZ.LA}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in stripes of cells in the embryonic epidermis, in a
| pattern that partially overlaps endogenous <fbsym>FBgn0004579==salm</fbsym> expression. In the
| embryonic CNS, expression is only detected in cells in which <fbsym>FBgn0004579==salm</fbsym> and
| <fbsym>FBgn0000287==salr</fbsym> are not normally expressed. In the larva, expression is detected in
| photoreceptors and cone cells of the eye imaginal disc, and in specific
| domains of the wing, haltere, and leg imaginal discs. Expression in the
| wing disc shows ectopic and endogenous patterns.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic epidermis | restricted <p>
|<t> E | late <a> embryonic central nervous system | restricted <p>
|<t> L <a> photoreceptor cell <p>
|<t> L <a> cone cell <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006763	SYM 1 Ecol\lacZ<up>sal.BAT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 753
ID|FBtr0006763
SYM|Ecol\lacZ<up>sal.BAT</up>RA
ASAL|<fbsym>FBal0101683==Ecol\lacZ<up>sal.BAT</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011589==P{sal-lacZ.BAT}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in the embryonic and larval CNS, in both endogenous
| and ectopic patterns, and in the leg disc.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic central nervous system | restricted <p>
|<t> L <a> larval central nervous system | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006764	SYM 1 Ecol\lacZ<up>sal.BE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 982
ID|FBtr0006764
SYM|Ecol\lacZ<up>sal.BE</up>RA
ASAL|<fbsym>FBal0098407==Ecol\lacZ<up>sal.BE</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011110==P{sal-lacZ.BE}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in the embryonic epidermis. Expression in the larval
| eye disc is ectopic with respect to endogenous <fbsym>FBgn0004579==salm</fbsym>. Expression in the
| wing disc shows both ectopic and endogenous patterns. Expression is also
| detected in the haltere and leg discs.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic epidermis | restricted <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> eye disc | restricted <p>
|<t> L <a> ventral thoracic disc <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006765	SYM 1 Ecol\lacZ<up>sal.AZA</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 801
ID|FBtr0006765
SYM|Ecol\lacZ<up>sal.AZA</up>RA
ASAL|<fbsym>FBal0101685==Ecol\lacZ<up>sal.AZA</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011591==P{sal-lacZ.AZA}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in the trachea, and in a subset of the PNS cells in
| which <fbsym>FBgn0004579==salm</fbsym> is expressed. Larval CNS expression is ectopic.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic/larval tracheal system <p>
|<t> E | late <a> embryonic peripheral nervous system | subset <p>
|<t> L <a> larval central nervous system | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006766	SYM 1 Ecol\lacZ<up>sal.ABO</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 936
ID|FBtr0006766
SYM|Ecol\lacZ<up>sal.ABO</up>RA
ASAL|<fbsym>FBal0098412==Ecol\lacZ<up>sal.ABO</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011115==P{sal-lacZ.ABO}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|In the larva, expression is detected in specific domains of the wing and
| haltere imaginal discs. Expression in the corpus allatum is ectopic with
| respect to endogenous <fbsym>FBgn0004579==salm</fbsym> expression. Expression in the wing disc is in
| endogenous and ectopic patterns.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
|<t> L <a> larval corpus allatum <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006767	SYM 1 Ecol\lacZ<up>sal.ABI</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 781
ID|FBtr0006767
SYM|Ecol\lacZ<up>sal.ABI</up>RA
ASAL|<fbsym>FBal0098413==Ecol\lacZ<up>sal.ABI</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011116==P{sal-lacZ.ABI}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|In the larva, expression is detected in specific domains of the wing and
| haltere imaginal discs. Expression in the wing disc is in endogenous and
| ectopic patterns.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006768	SYM 1 Ecol\lacZ<up>sal.AS</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 650
ID|FBtr0006768
SYM|Ecol\lacZ<up>sal.AS</up>RA
ASAL|<fbsym>FBal0098408==Ecol\lacZ<up>sal.AS</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011111==P{sal-lacZ.AS}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression in the corpus cardiacum is ectopic with respect to endogenous
| <fbsym>FBgn0004579==salm</fbsym> expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> larval hindgut <p>
|<t> L <a> larval corpus cardiacum <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006769	SYM 1 Ecol\lacZ<up>sal.AZO</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 679
ID|FBtr0006769
SYM|Ecol\lacZ<up>sal.AZO</up>RA
ASAL|<fbsym>FBal0101684==Ecol\lacZ<up>sal.AZO</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011590==P{sal-lacZ.AZO}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in a subset of CNS cells where <fbsym>FBgn0004579==salm</fbsym> and <fbsym>FBgn0000287==salr</fbsym> are
| not normally expressed.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic central nervous system | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006770	SYM 1 Ecol\lacZ<up>sal.AM</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 964
ID|FBtr0006770
SYM|Ecol\lacZ<up>sal.AM</up>RA
ASAL|<fbsym>FBal0098409==Ecol\lacZ<up>sal.AM</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011112==P{sal-lacZ.AM}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Embryonic expression is detected in a subset of CNS cells where <fbsym>FBgn0004579==salm</fbsym> and
| <fbsym>FBgn0000287==salr</fbsym> are not normally expressed. Larval CNS and wing disc expression is
| also ectopic. In the larval eye imaginal disc, expression is detected in
| cone cells.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic central nervous system | restricted <p>
|<t> L | third instar <a> larval central nervous system | restricted <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a>cone cell <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006771	SYM 1 Ecol\lacZ<up>sal.AL</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1150
ID|FBtr0006771
SYM|Ecol\lacZ<up>sal.AL</up>RA
ASAL|<fbsym>FBal0098410==Ecol\lacZ<up>sal.AL</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011113==P{sal-lacZ.AL}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Embryonic expression is detected in the midgut. In the larva, expression is
| detected in specific domains of the wing and haltere imaginal discs.
| Expression in the eye disc and CNS in the larva is ectopic, while the wing
| disc expression is both ectopic andendogenous. Expression in the
| prothoracic gland matches endogenous <fbsym>FBgn0004579==salm</fbsym> expression.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> larval midgut <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
|<t> L <a> eyedisc <p>
|<t> L | third instar <a> larval central nervous system | restricted <p>
|<t> L <a> prothoracic gland <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006772	SYM 1 Ecol\lacZ<up>sal.BI</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1306
ID|FBtr0006772
SYM|Ecol\lacZ<up>sal.BI</up>RA
ASAL|<fbsym>FBal0098406==Ecol\lacZ<up>sal.BI</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011109==P{sal-lacZ.BI}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Expression is detected in a subset of the oenocyte cells in which <fbsym>FBgn0004579==salm</fbsym> and
| <fbsym>FBgn0000287==salr</fbsym> are expressed, and a subset of the PNS cells where endogenous <fbsym>FBgn0004579==salm</fbsym>
| is expressed. In the embryonic CNS, expression is only detectedin cells in
| which <fbsym>FBgn0004579==salm</fbsym> and <fbsym>FBgn0000287==salr</fbsym> are not normally expressed. In the larval wing
| disc, endogenous and ectopic expression patterns are detected.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic/larval oenocyte | subset <p>
|<t> E | late <a> embryonic peripheral nervous system | restricted <p>
|<t> E | late <a> embryonic central nervous system | restricted <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006773	SYM 1 Ecol\lacZ<up>sal.BO</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1001
ID|FBtr0006773
SYM|Ecol\lacZ<up>sal.BO</up>RA
ASAL|<fbsym>FBal0098405==Ecol\lacZ<up>sal.BO</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011108==P{sal-lacZ.BO}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Embryonic expression is detected in all the oenocyte cells in which <fbsym>FBgn0004579==salm</fbsym>
| and <fbsym>FBgn0000287==salr</fbsym> are normally expressed. In the larval eye imaginal disc,
| expression is detected in photoreceptors and cone cells. In the larval CNS
| and wing disc, expression is ectopic.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic/larval oenocyte <p>
|<t> L <a> photoreceptor cell <p>
|<t> L <a> cone cell <p>
|<t> L | third instar <a> larval central nervous system | restricted <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006774	SYM 1 Ecol\lacZ<up>sal.EME</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1521
ID|FBtr0006774
SYM|Ecol\lacZ<up>sal.EME</up>RA
ASAL|<fbsym>FBal0098404==Ecol\lacZ<up>sal.EME</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011107==P{sal-lacZ.EME}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Embryonic expression is detected in subsets of cells in the PNS where
| endogenous <fbsym>FBgn0004579==salm</fbsym> is expressed, as well as in cells in the CNS where
| endogenous <fbsym>FBgn0004579==salm</fbsym> and <fbsym>FBgn0000287==salr</fbsym> are not expressed. Expression is also detected
| in regions of the epidermis, partially overlapping with the endogenous
| expression of <fbsym>FBgn0004579==salm</fbsym>. In the larval CNS and in the wing disc, expression is
| detected in cells that normally express <fbsym>FBgn0004579==salm</fbsym> and <fbsym>FBgn0000287==salr</fbsym>, but additional
| ectopic expression is also detected.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic peripheral nervous system | restricted <p>
|<t> E | late <a> embryonic central nervous system | restricted <p>
|<t> E | late <a> embryonic epidermis | restricted <p>
|<t> L | third instar <a> larval central nervous system | restricted <p>
|<t> L <a> dorsal mesothoracic disc | restricted <p>
|<t> L <a> dorsal metathoracic disc | restricted <p>
|<t> L <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006775	SYM 1 Ecol\lacZ<up>sal.ZO</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1010
ID|FBtr0006775
SYM|Ecol\lacZ<up>sal.ZO</up>RA
ASAL|<fbsym>FBal0101679==Ecol\lacZ<up>sal.ZO</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASTP|<fbsym>FBtp0011585==P{sal-lacZ.ZO}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111797
|Barrio et al.
|1999
RNAT|mRNA
BODP|Embryonic expression is detected in parts of the epidermis, in a pattern
| partially overlapping the endogenous <fbsym>FBgn0004579==salm</fbsym> epidermal expression pattern.
| In the larval CNS, expression is detected in cells that normally express
| <fbsym>FBgn0004579==salm</fbsym> and <fbsym>FBgn0000287==salr</fbsym>, but additional ectopic expression is also detected.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | late <a> embryonic epidermis | restricted <p>
|<t> L | third instar <a> larval central nervous system | restricted <p>
|<t> L |  <a> ventral thoracic disc | restricted <p>
}

REF
{
REFM|FBrf0111797
|Barrio et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006776	SYM 1 mud<up>+</up>R	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 701
ID|FBtr0006776
SYM|mud<up>+</up>R
ASAL|<fbsym>FBal0070763==mud<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0002873==mud</fbsym>

REFDSR
{
RDID|FBrf0128481
|Guan et al.
|2000
RNAT|mRNA
BODP|<fbsym>FBgn0002873==mud</fbsym> transcripts show a complex pattern of expression. Expression in
| embryos is higher than in larvae and adults. In embryos, multiple
| transcripts of different sizes are detected with most probes tested. The
| first 6 exons seem to be used inall transcripts in embryos and adults. Exon
| 7 is used preferentially in male larvae.
ASM|northern blot
CVBODP|northern blot
|<t> E <a>  <p>
|<t> L <a>  <p>
|<t> A <a>  <p>
}

REF
{
REFM|FBrf0128481
|Guan et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006778	SYM 1 mud<up>+</up>RB	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 689
ID|FBtr0006778
SYM|mud<up>+</up>RB
ASAL|<fbsym>FBal0070763==mud<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0002873==mud</fbsym>
ASPP|<fbsym>FBpp0003577==mud<up>+</up>PC</fbsym>

REFDSR
{
RDID|FBrf0128481
|Guan et al.
|2000
RNAT|mRNA
EXNSQ|1-6,11,12a
BODP|<fbsym>FBgn0002873==mud</fbsym> transcripts show a complex pattern of expression. Expression in
| embryos is higher than in larvae and adults. A probe covering exons 11 plus
| 12 detects transcripts expressed at high levels in embryos. The first 6
| exons seem to be used inall transcripts in embryos and adults.
ASM|northern blot
CVBODP|northern blot
|<t> E <a>  <p>
}

REF
{
REFM|FBrf0128481
|Guan et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006779	SYM 1 mud<up>+</up>RC	TRL 1 -	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 796
ID|FBtr0006779
SYM|mud<up>+</up>RC
ASAL|<fbsym>FBal0070763==mud<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0002873==mud</fbsym>
ASPP|<fbsym>FBpp0003578==mud<up>+</up>P2501</fbsym>

REFDSR
{
RDID|FBrf0128481
|Guan et al.
|2000
RNAT|mRNA
EXNSQ|1-6,8-11,12b
BODP|<fbsym>FBgn0002873==mud</fbsym> transcripts show a complex pattern of expression. Expression in
| embryos is higher than in larvae and adults. In embryos, multiple species
| of different sizes are detected with each probe tested. The first 6 exons
| seem to be used in all transcripts in embryos and adults.
ASM|northern blot
CVBODP|northern blot
|<t> E <a>  <p>
CC|This transcript is based on EST clone LD24364, which has a nonconsensus
| splice site following exon 6.
}

REF
{
REFM|FBrf0128481
|Guan et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006796	SYM 1 Dpse\Sry-&agr;<up>+</up>RA	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Apr 2001	RESZ 1622
ID|FBtr0006796
SYM|Dpse\Sry-&agr;<up>+</up>RA
ASAL|<fbsym>FBal0067185==Dpse\Sry-&agr;<up>+</up></fbsym>
DT|23 Apr 2001
|23 Apr 2001
ASGN|<fbsym>FBgn0012713==Dpse\Sry-&agr;</fbsym>

REFDSR
{
RDID|FBrf0065434
|Ibnsouda et al.
|1993
RNAT|mRNA
BODP|<fbsym>Dpse\Sry-&agr;</fbsym> transcript is first detected in embryonic cycle 11 embryos
| as two dots per somatic nucleus. The transcript is detected in the
| cytoplasm starting at cycle 12. Expression continues to increase and peaks
| at early cycle 14, at the start of cellularization. <fbsym>Dpse\Sry-&agr;</fbsym> RNA is
| localized basally, just below the cortical nuclei. Early during interphase,
| transcripts become concentrated at 3 zones at 0-22%, 35-65% and 80-100% egg
| length. During cellularization, expression becomes stronger posteriorly,
| and the central zone divides into two bands. Expression is still observed
| in specific groups of cells during the invagination of the cephalic and
| posterior midgut furrows.
ASM|in situ
CVBODP|in situ
|<t> E | embryonic cycle 11 <a>  <p>
|<t> E | embryonic cycle 14 <a>  <p> 0-22%
|<t> E | embryonic cycle 14 <a>  <p> 35-65%
|<t> E | embryonic cycle 14 <a>  <p> 80-100%
|<t> E | stage 4-7 <a>  <p>
CC|<fbsym>Dpse\Sry-&agr;</fbsym> and Drosophila melanogaster <fbsym>Sry-&agr;</fbsym> expression was
| compared. Expression is detected at embryonic cycle 11 in both species, and
| peaks at early cycle 14. The expression pattern of the Drosophila
| pseudoobscura transcript is more complex during cycle 14, and the
| transcript is expressed later into embryogenesis.
}

REF
{
REFM|FBrf0065434
|Ibnsouda et al.
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006818	SYM 1 Avic\GFP<up>Scer\UAS.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein distribution, binary	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 24 Apr 2001	RESZ 969
ID|FBtr0006818
SYM|Avic\GFP<up>Scer\UAS.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0051725==Avic\GFP<up>Scer\UAS.T:Btau\MAPT</up></fbsym>
DT|24 Apr 2001
|24 Apr 2001
ASTP|<fbsym>FBtp0001269==P{UAS-GFP.btau}</fbsym>
|<fbsym>FBmc0001259==pP{UAS-GFP.btau}</fbsym>
ASGN|<fbsym>FBgn0014446==Avic\GFP</fbsym>
ASPP|<fbsym>FBpp0003602==Avic\GFP<up>Scer\UAS.T:Btau\MAPT</up>PA</fbsym>

REFDSR
{
RDID|FBrf0083789
|Brand
|1995
RNAT|mRNA
BODP|Expression dependent upon expression pattern of <fbsym>FBgn0014445==Scer\GAL4</fbsym> driver.
|  <fbsym>FBgn0026016==T:Btau\MAPT</fbsym> component targets to microtubules; see report for the fusion
| protein, <fbsym>FBpp0003602==Avic\GFP<up>Scer\UAS.T:Btau\MAPT</up>PA</fbsym>.
ASM|transcript distribution deduced from reporter protein distribution, binary
|system (Gal4 UAS)
CVBODP|transcript distribution deduced from reporter protein distribution, binary system (Gal4 UAS)
|<t> E | stage >=12 <a>  <p>
}

REF
{
REFM|FBrf0083789
|Brand
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006824	SYM 1 Ecol\lacZ<up>Scer\UAS.O.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 795
ID|FBtr0006824
SYM|Ecol\lacZ<up>Scer\UAS.O.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0093135==Ecol\lacZ<up>Scer\UAS.O.T:Btau\MAPT</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0010033==P{UAS-tau-lacZ.O}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>
ASPP|<fbsym>FBpp0003604==Ecol\lacZ<up>Scer\UAS.O.T:Btau\MAPT</up>PA</fbsym>

REFDSR
{
RDID|FBrf0104899
|O'Keefe et al.
|1998
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter: expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell. Product localized
| to microtubules; allows visualization of cell body, axons and other projections.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0104899
|O'Keefe et al.
|1998
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006826	SYM 1 Ecol\lacZ<up>ro.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 1 Mar 2004	RESZ 1140
ID|FBtr0006826
SYM|Ecol\lacZ<up>ro.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0098531==Ecol\lacZ<up>ro.T:Btau\MAPT</up></fbsym>
DT|1 Mar 2004
|29 May 2001
ASTP|<fbsym>FBtp0011159==P{ro.lacZ-tau.G}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0108182
|Garrity et al.
|1999
RNAT|mRNA
MRK|photoreceptor cell R2-R5
RNAT|mRNA
BODP|In the third instar larva, expressed in R2-R5 photoreceptor cells; labels
| cell bodies and axons (in eye disc and brain), but not the terminal
| expansions of the axon growth cones (since <fbsym>FBgn0026016==T:Btau\MAPT</fbsym> targets to microtubules).
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> photoreceptor cell R2 <p>
|<t> L | third instar <a> photoreceptor cell R3 <p>
|<t> L | third instar <a> photoreceptor cell R4 <p>
|<t> L | third instar <a> photoreceptor cell R5 <p>
CC|Used as marker for R2-R5 axons.
}

REFDSR
{
RDID|FBrf0128589
|Newsome et al.
|2000
RNAT|mRNA
MRK|photoreceptor cell R2..R5
}

REF
{
REFM|FBrf0108182
|Garrity et al.
|1999
REFM|FBrf0128589
|Newsome et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006834	SYM 1 Ecol\lacZ<up>Scer\UAS.cFa</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 701
ID|FBtr0006834
SYM|Ecol\lacZ<up>Scer\UAS.cFa</up>RA
ASAL|<fbsym>FBal0040543==Ecol\lacZ<up>Scer\UAS.cFa</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0000729==P{UAS-lacZ.Hsp70}</fbsym>
|<fbsym>FBmc0001381==pP{UAS-lacZ.Hsp70}</fbsym>
|<fbsym>FBms0003583==Hsp70-lacZ-Hsp70(Nr1,X1)b</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0048781
|Fischer et al.
|1988
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter; expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0048781
|Fischer et al.
|1988
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006838	SYM 1 Ecol\lacZ<up>zen:eve.VR:MSE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 1140
ID|FBtr0006838
SYM|Ecol\lacZ<up>zen:eve.VR:MSE</up>RA
ASAL|<fbsym>FBal0042302==Ecol\lacZ<up>zen:eve.VR:MSE</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0004696==P{lacZ<up>zen/eve.600bpVRE</up>}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0055953
|Jiang et al.
|1992
RNAT|mRNA
BODP|In stage 5 embryo, the ventral portion of the <fbsym>FBgn0000606==eve</fbsym> second stripe pattern is
| repressed; in addition, there is dorsal expression outside the <fbsym>FBgn0000606==eve</fbsym> second
| stripe.  This results, during embryonic cycle 14A, in dorsal expression
| fromthe region of <fbsym>FBgn0000606==eve</fbsym> stripe 2 and more posterior; and during embryonic
| cycle 14B, in high levels of expression in the dorsal half of the <fbsym>FBgn0000606==eve</fbsym>
| stripe 2 region, with lower levels in more posterior dorsal regions.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | embryonic cycle 14A <a>  <p> dorsal
|<t> E | embryonic cycle 14B <a>  <p> stripes | dorsal
}

REF
{
REFM|FBrf0055953
|Jiang et al.
|1992
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006841	SYM 1 Ecol\lacZ<up>Scer\UAS.cBa</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 699
ID|FBtr0006841
SYM|Ecol\lacZ<up>Scer\UAS.cBa</up>RA
ASAL|<fbsym>FBal0042106==Ecol\lacZ<up>Scer\UAS.cBa</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0000355==P{UAS-lacZ.B}</fbsym>
|<fbsym>FBmc0000384==pP{UAS-lacZ.B}</fbsym>
|<fbsym>FBms0003578==Hsp70Bb::lacZ::SV40_4.6</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0064375
|Brand and Perrimon
|1993
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter; expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0064375
|Brand and Perrimon
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006844	SYM 1 Ecol\lacZ<up>Dfd.F</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 510
ID|FBtr0006844
SYM|Ecol\lacZ<up>Dfd.F</up>RA
ASAL|<fbsym>FBal0041086==Ecol\lacZ<up>Dfd.F</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0004088==P{Dfd-lacZ.1xF}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0074891
|Zeng et al.
|1994
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 12 <a> embryonic maxillary segment | posterior <p>
}

REF
{
REFM|FBrf0074891
|Zeng et al.
|1994
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006847	SYM 1 Ecol\lacZ<up>ap.C.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 1092
ID|FBtr0006847
SYM|Ecol\lacZ<up>ap.C.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0044381==Ecol\lacZ<up>ap.C.T:Btau\MAPT</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0004965==P{apC-tau-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0078940
|Lundgren et al.
|1995
RNAT|mRNA
BODP|Accurately reflects expression of <fbsym>FBgn0000099==ap</fbsym> in terms of cells in which that gene
| is expressed; however, the <fbsym>FBgn0000099==ap</fbsym> protein is nuclear, whereas this reporter
| is targeted to microtubules and thus labels cell bodies and axons. In
| embryonicVNC, expresssion restricted to 7 cells (interneurons) in each
| thoracic hemisphere.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> muscle | subset <p>
|<t> E <a> brain | restricted <p>
|<t> E <a> ventral nerve cord | restricted <p>
|<t> E <a> interneuron <of> ventral nerve cord <p>
|<t> L <a> dorsal mesothoracic disc <p>
ASCRGN|<fbsym>FBgn0000099==ap</fbsym>
}

REF
{
REFM|FBrf0078940
|Lundgren et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006849	SYM 1 Ecol\lacZ<up>Scer\UAS</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 584
ID|FBtr0006849
SYM|Ecol\lacZ<up>Scer\UAS</up>RA
ASAL|<fbsym>FBal0042107==Ecol\lacZ<up>Scer\UAS</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0001039==P{UAS-lacZ.U}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0079512
|Thomas et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter; expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0079512
|Thomas et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006852	SYM 1 Ecol\lacZ<up>Scer\UAS.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 876
ID|FBtr0006852
SYM|Ecol\lacZ<up>Scer\UAS.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0047959==Ecol\lacZ<up>Scer\UAS.T:Btau\MAPT</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0001184==P{UAS-tau-lacZ.B}</fbsym>
|<fbsym>FBmc0001158==pP{UAS-tau-lacZ.B}</fbsym>
ASGN|<fbsym>FBgn0014445==Scer\GAL4</fbsym>
|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>
ASPP|<fbsym>FBpp0003605==Ecol\lacZ<up>Scer\UAS.T:Btau\MAPT</up>PA</fbsym>

REFDSR
{
RDID|FBrf0084024
|Hidalgo et al.
|1995
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter: expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell. Product localized
| to microtubules; allows visualization of cell body, axons and other projections.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0084024
|Hidalgo et al.
|1995
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006859	SYM 1 Ecol\lacZ<up>eve.C</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 792
ID|FBtr0006859
SYM|Ecol\lacZ<up>eve.C</up>RA
ASAL|<fbsym>FBal0050004==Ecol\lacZ<up>eve.C</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0006046==P{eve-lacZ.C}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0087716
|Small et al.
|1996
RNAT|mRNA
BODP|In embryo, expressed stripes 3 and 7, a subset of the normal 7 <fbsym>FBgn0000606==eve</fbsym>
| stripes; expression in stripe 3 stronger than that in stripe 7.  A small
| dorsal and anterior patch of expression is also observed; this is shown to
| be due to vector sequences in the P-transposon construct.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 4-5 <a>  <p> stripes
}

REF
{
REFM|FBrf0087716
|Small et al.
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006861	SYM 1 Ecol\lacZ<up>Scer\UAS.cRa</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 579
ID|FBtr0006861
SYM|Ecol\lacZ<up>Scer\UAS.cRa</up>RA
ASAL|<fbsym>FBal0060254==Ecol\lacZ<up>Scer\UAS.cRa</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0001320==P{UAS-lacZ.HZ50}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0090768
|Rorth
|1996
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter: expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0090768
|Rorth
|1996
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006868	SYM 1 Ecol\lacZ<up>NUC.Scer\UAS</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 776
ID|FBtr0006868
SYM|Ecol\lacZ<up>NUC.Scer\UAS</up>RA
ASAL|<fbsym>FBal0063962==Ecol\lacZ<up>NUC.Scer\UAS</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0008526==P{UAS-lacZ.NUC}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>
ASPP|<fbsym>FBpp0003606==Ecol\lacZ<up>NUC.Scer\UAS</up>PA</fbsym>

REFDSR
{
RDID|FBrf0098270
|Huppert et al.
|1997
RNAT|mRNA
BODP|<fbsym>FBgn0014445==Scer\GAL4</fbsym>-targeted reporter: expression of <fbsym>FBgn0014447==Ecol\lacZ</fbsym> reflects action of
| enhancer/promoter elements driving GAL4 in the same cell. Product localized
| to nucleus: the &bgr;-galactosidase protein produced carries a nuclear
| localization signal.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0098270
|Huppert et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006872	SYM 1 Ecol\lacZ<up>Scer\FRT.Ubx</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 29 May 2001	RESZ 701
ID|FBtr0006872
SYM|Ecol\lacZ<up>Scer\FRT.Ubx</up>RA
ASAL|<fbsym>FBal0065782==Ecol\lacZ<up>Scer\FRT.Ubx</up></fbsym>
DT|29 May 2001
|29 May 2001
ASTP|<fbsym>FBtp0008700==P{GAL4-lacZ-Ubx(FRT.f<up>+</up>).dC}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0098380
|de Celis and Bray
|1997
RNAT|mRNA
BODP|Used as marker for clonal analysis in wing; FRT-containing variant blocks
| <fbsym>FBgn0014447==Ecol\lacZ</fbsym> expression; see expression data for <fbsym>FBtp0008692==P{GAL4-lacZ-Ubx(-FRT).dC}</fbsym>
| at <fbsym>FBtr0006504==Ecol\lacZ<up>Ubx.PdC</up>RA</fbsym>.
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0098380
|de Celis and Bray
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006903	SYM 1 Doa<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2001	RESZ 1502
ID|FBtr0006903
SYM|Doa<up>+</up>R
ASAL|<fbsym>FBal0067077==Doa<up>+</up></fbsym>
DT|30 May 2001
|30 May 2001
ASGN|<fbsym>FBgn0053553==Doa</fbsym>

REFDSR
{
RDID|FBrf0130184
|Yun et al.
|2000
RNAT|mRNA
BODP|<fbsym>FBgn0000480==Doa</fbsym> transcript is uniformly distributed in stage 1-5 embryos. Zygotic
| transcripts are detected at stages 7-8. At stages 10-11, expression is
| detected in the presumptive ectoderm and mesoderm, in densely staining
| segmented areas in the ectoderm possibly corresponding to the tracheal
| pits, and in the procephalon. After germ band retraction, most of the
| staining is in anterior and ventral regions, including the ventral nerve
| cord and the brain. Low but ubiquitous expression is observed in
| eye-antennal and wing imaginal discs in late third instar larvae.
ASM|in situ
CVBODP|in situ
|<t> E | stage >=1 <a>  <p>
|<t> E | stage 10-11 <a> ectoderm <p>
|<t> E | stage 10-11 <a> mesoderm <p>
|<t> E | stage 10-11 <a> embryonic/larval tracheal pit <p>
|<t> E | stage 10-11 <a> procephalic segment <p>
|<t> E | stage 13-17 <a> ventral nerve cord <p>
|<t> E | stage 13-17 <a> embryonic brain <p>
|<t> E | stage 13 <a> embryonic optic lobe <p>
|<t> E | stage 13 <a> labral segment <p>
|<t> E | stage 13 <a> visceral mesoderm | surrounding <p>
|<t> E | stage 13 <a> embryonic brain | surrounding <p>
|<t> L | third instar | late <a> eye-antennal disc <p>
|<t> L | third instar | late <a> dorsal mesothoracic disc <p>
}

REF
{
REFM|FBrf0130184
|Yun et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006912	SYM 1 Ecol\lacZ<up>salm.TSE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 May 2001	RESZ 650
ID|FBtr0006912
SYM|Ecol\lacZ<up>salm.TSE</up>RA
ASAL|<fbsym>FBal0055675==Ecol\lacZ<up>salm.TSE</up></fbsym>
DT|30 May 2001
|30 May 2001
ASTP|<fbsym>FBtp0006681==P{sal-TSE-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0098289
|Kuhnlein et al.
|1997
RNAT|mRNA
BODP|Drives expression in the tracheal system and posterior spiracles.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | stage 11 <a> embryonic/larval tracheal system <p>
|<t> E | stage 11 <a> embryonic/larval posterior spiracle <p>
}

REF
{
REFM|FBrf0098289
|Kuhnlein et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006967	SYM 1 Ecol\lacZ<up>en.B</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 1020
ID|FBtr0006967
SYM|Ecol\lacZ<up>en.B</up>RA
ASAL|<fbsym>FBal0041264==Ecol\lacZ<up>en.B</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASTP|<fbsym>FBtp0000312==P{enB}</fbsym>
|<fbsym>FBmc0000336==pP{enB}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  Note: Results using assay for
| &bgr;-gal activity differ from those detecting the &bgr;-gal RNA.  The
| stripe pattern persists into late stages of embryogenesis in the former
| case, but not in the latter.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid-late <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006968	SYM 1 Ecol\lacZ<up>en.C</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 1020
ID|FBtr0006968
SYM|Ecol\lacZ<up>en.C</up>RA
ASAL|<fbsym>FBal0041265==Ecol\lacZ<up>en.C</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASTP|<fbsym>FBtp0000314==P{enC}</fbsym>
|<fbsym>FBmc0000338==pP{enC}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  Note: Results using assay for
| &bgr;-gal activity differ from those detecting the &bgr;-gal RNA.  The
| stripe pattern persists into late stages of embryogenesis in the former
| case, but not in the latter.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid-late <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006969	SYM 1 Ecol\lacZ<up>en.D</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 1020
ID|FBtr0006969
SYM|Ecol\lacZ<up>en.D</up>RA
ASAL|<fbsym>FBal0041266==Ecol\lacZ<up>en.D</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASTP|<fbsym>FBtp0000315==P{enD}</fbsym>
|<fbsym>FBmc0000339==pP{enD}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  Note: Results using assay for
| &bgr;-gal activity differ from those detecting the &bgr;-gal RNA.  The
| stripe pattern persists into late stages of embryogenesis in the former
| case, but not in the latter.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid-late <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006970	SYM 1 Ecol\lacZ<up>en.E</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 1020
ID|FBtr0006970
SYM|Ecol\lacZ<up>en.E</up>RA
ASAL|<fbsym>FBal0041267==Ecol\lacZ<up>en.E</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASTP|<fbsym>FBtp0000316==P{enE}</fbsym>
|<fbsym>FBmc0000340==pP{enE}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  Note: Results using assay for
| &bgr;-gal activity differ from those detecting the &bgr;-gal RNA.  The
| stripe pattern persists into late stages of embryogenesis in the former
| case, but not in the latter.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid-late <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006971	SYM 1 Ecol\lacZ<up>en.G</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 1020
ID|FBtr0006971
SYM|Ecol\lacZ<up>en.G</up>RA
ASAL|<fbsym>FBal0041269==Ecol\lacZ<up>en.G</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASTP|<fbsym>FBtp0000318==P{enG}</fbsym>
|<fbsym>FBmc0000342==pP{enG}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  Note: Results using assay for
| &bgr;-gal activity differ from those detecting the &bgr;-gal RNA.  The
| stripe pattern persists into late stages of embryogenesis in the former
| case, but not in the latter.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid-late <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0006972	SYM 1 Ecol\lacZ<up>en.I</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 1020
ID|FBtr0006972
SYM|Ecol\lacZ<up>en.I</up>RA
ASAL|<fbsym>FBal0041272==Ecol\lacZ<up>en.I</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASTP|<fbsym>FBtp0000319==P{enI}</fbsym>
|<fbsym>FBmc0000343==pP{enI}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0051851
|Kassis
|1990
RNAT|mRNA
BODP|In embryos, lower levels of expression observed in first 3 (anterior)
| stripes; in subsequent stripes, expression in even-numbered stripes is
| higher than that in odd-numbered stripes.  Note: Results using assay for
| &bgr;-gal activity differ from those detecting the &bgr;-gal RNA.  The
| stripe pattern persists into late stages of embryogenesis in the former
| case, but not in the latter.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | mid-late <a>  <p> stripes
|<t> E | mid-late <a> fat body primordium <p>
|<t> E | late <a> neurogenic region <p>
ASCRGN|<fbsym>FBgn0000577==en</fbsym>
}

REF
{
REFM|FBrf0051851
|Kassis
|1990
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007001	SYM 1 mav<up>+</up>RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 485
ID|FBtr0007001
SYM|mav<up>+</up>RB
ASAL|<fbsym>FBal0118750==mav<up>+</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASGN|<fbsym>FBgn0039914==mav</fbsym>
ASPP|<fbsym>FBpp0003653==mav<up>+</up>P433</fbsym>

REFDSR
{
RDID|FBrf0129993
|Nguyen et al.
|2000
RNAT|mRNA
EXNSQ|2-4
CC|The smaller <fbsym>FBgn0039914==mav</fbsym> transcript is created by alternative splicing. An
| additional intron is excised that is present in the larger transcript.
}

REF
{
REFM|FBrf0129993
|Nguyen et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007002	SYM 1 mav<up>+</up>R	TRL 1 -	ASM 1 in situ	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 2327
ID|FBtr0007002
SYM|mav<up>+</up>R
ASAL|<fbsym>FBal0118750==mav<up>+</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ASGN|<fbsym>FBgn0039914==mav</fbsym>

REFDSR
{
RDID|FBrf0129993
|Nguyen et al.
|2000
RNAT|mRNA
BODP|In situ hybridization reveals that <fbsym>FBgn0039914==mav</fbsym> transcripts are distributed
| throughout the early embryo including the pole cells and are ubiquitous in
| post-cellular blastoderm embryos. During gastrulation and germ band
| extension <fbsym>FBgn0039914==mav</fbsym> transcripts are expressed in a dynamic pattern in both germ
| layers forming the gut, the endoderm and the mesoderm, as well as at a low
| level throughout the embryo. They are observed in late stage 9 and early
| stage 10 in the hindgut and posterior midgut and in stage 11 in the foregut
| and anterior midgut primordia, as well as in the posterior midgut primordia
| and hindgut. By stage 12, transcripts are restricted to a small subset of
| cells in the hindgut and a section of the foregut which eventually becomes
| part of the pharynx/esophagus. In stages 13 and 14 the visceral mesoderm
| that surrounds the anterior and posterior midgut endoderm, expresses <fbsym>FBgn0039914==mav</fbsym>
| at high levels. Expression in the gut persists until late embryogenesis.
| <fbsym>FBgn0039914==mav</fbsym> transcripts are also expressed in discrete segmental patches in the
| dorso-lateral epidermal region. High levels of <fbsym>FBgn0039914==mav</fbsym> transcripts are also
| observed in late stages of oogenesis where they are found in nurse cells
| and subsequently in the oocyte.
ASM|in situ
CVBODP|in situ
|<t> E | stage 5-11 <a> ubiquitous <p>
|<t> E | stage 7-9 <a> endoderm <p>
|<t> E | stage 7-9 <a> mesoderm <p>
|<t> E | stage 9,10 <a> hindgut primordium <p>
|<t> E | stage 9,10 <a> posterior midgut primordium <p>
|<t> E | stage 11,12 <a> embryonic foregut <p>
|<t> E | stage 11 <a> anterior midgut primordium <p>
|<t> E | stage >=12 <a> embryonic hindgut <p>
|<t> E | stage >=12 <a> pharynx <p>
|<t> E | stage >=12 <a> embryonic esophagus <p>
|<t> E | stage 13 <a> visceral mesoderm <of> anterior larval midgut <p>
|<t> E | stage 13 <a> visceral mesoderm <of> posterior larval midgut <p>
|<t> O,A | stage >=S10 <a> nurse cell <p>
|<t> O,A | stage >=S10 <a> oocyte <p>
}

REF
{
REFM|FBrf0129993
|Nguyen et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007039	SYM 1 &ggr;Snap-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 18 Jul 2001	RESZ 336
ID|FBtr0007039
SYM|&ggr;Snap-RA
ASAL|<fbsym>FBal0101099==&ggr;Snap<up>+</up></fbsym>
DT|18 Jul 2001
|18 Jul 2001
ARGS|FBgn0028552
ASGN|<fbsym>FBgn0028552==&ggr;Snap</fbsym>
ASPP|<fbsym>FBpp0003674==&ggr;Snap-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,4,5,6,7
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007055	SYM 1 Dgk&egr;-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 10 Aug 2001	RESZ 458
ID|FBtr0007055
SYM|Dgk&egr;-RA
SYN|Dgkepsilon-RA
ASAL|<fbsym>FBal0079865==Dgk&egr;<up>+</up></fbsym>
DT|10 Aug 2001
|23 Jul 2001
ID2|FBtr0007053
ARGS|FBgn0020930
ASGN|<fbsym>FBgn0020930==Dgk&egr;</fbsym>
ASPP|<fbsym>FBpp0003689==Dgk&egr;-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,4
}

REFDSR
{
RDID|FBrf0131290
|Frolov et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0131290
|Frolov et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007056	SYM 1 Nac&agr;<up>+</up>R	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 23 Jul 2001	RESZ 313
ID|FBtr0007056
SYM|Nac&agr;<up>+</up>R
ASAL|<fbsym>FBal0095944==Nac&agr;<up>+</up></fbsym>
DT|23 Jul 2001
|23 Jul 2001
ASGN|<fbsym>FBgn0017565==Nac&agr;</fbsym>
ASPP|<fbsym>FBpp0003072==Nac&agr;-P1</fbsym>

REFDSR
{
RDID|FBrf0131290
|Frolov et al.
|2000
RNAT|mRNA
}

REF
{
REFM|FBrf0131290
|Frolov et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007063	SYM 1 ey<up>+</up>RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 23 Jul 2001	RESZ 379
ID|FBtr0007063
SYM|ey<up>+</up>RC
ASAL|<fbsym>FBal0068925==ey<up>+</up></fbsym>
DT|23 Jul 2001
|23 Jul 2001
ASGN|<fbsym>FBgn0005558==ey</fbsym>

REFDSR
{
RDID|FBrf0093719
|Sheng et al.
|1997
RNAT|mRNA
CC|A third, adult-specific <fbsym>FBgn0005558==ey</fbsym> transcript was isolated. This transcript
| contains both exons 1 and 2.
}

REF
{
REFM|FBrf0093719
|Sheng et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007102	SYM 1 gypsy-RA	TRL 1 6.5	ASM 1 northern blot	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 27 Aug 2001	RESZ 594
ID|FBtr0007102
SYM|gypsy-RA
DT|27 Aug 2001
|27 Aug 2001

REFDSR
{
RDID|FBrf0042029
|Parkhurst and Corces
|1985
RNAT|gypsy
TRL|6.5 (northern blot)
BODP|Expressed at low levels in first instar larvae; turned on again at the
| beginning of puparium formation, reaching a maximum level of expression in
| 2-3 day old pupae.
ASM|northern blot
CVBODP|northern blot
|<t> L | first-second instar <a>  <p>
|<t> PP-A <a>  <p>
}

REFDSR
{
RDID|FBrf0043916
|Arkhipova et al.
|1986
RNAT|gypsy
VPR|experimental
}

REF
{
REFM|FBrf0042029
|Parkhurst and Corces
|1985
REFM|FBrf0043916
|Arkhipova et al.
|1986
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007103	SYM 1 micropia\polyprotein-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 27 Aug 2001	RESZ 445
ID|FBtr0007103
SYM|micropia\polyprotein-RA
ASAL|<fbsym>FBal0122427==micropia\polyprotein<up>+</up></fbsym>
DT|27 Aug 2001
|27 Aug 2001
ASGN|<fbsym>FBgn0043876==micropia\polyprotein</fbsym>
ASPP|<fbsym>FBpp0003716==micropia\polyprotein-P1</fbsym>

REFDSR
{
RDID|FBrf0048576
|Lankenau et al.
|1988
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0078865
|Lankenau
|1993
RNAT|mRNA
}

REF
{
REFM|FBrf0048576
|Lankenau et al.
|1988
REFM|FBrf0078865
|Lankenau
|1993
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007104	SYM 1 Ecol\lacZ<up>hb.P</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 27 Aug 2001	RESZ 517
ID|FBtr0007104
SYM|Ecol\lacZ<up>hb.P</up>RA
ASAL|<fbsym>FBal0041595==Ecol\lacZ<up>hb.P</up></fbsym>
DT|27 Aug 2001
|27 Aug 2001
ASTP|<fbsym>FBtp0000953==P{HB-lacZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0049337
|Struhl et al.
|1989
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | blastoderm <a>  <p> anterior
ASCRGN|<fbsym>FBgn0001180==hb</fbsym>
}

REF
{
REFM|FBrf0049337
|Struhl et al.
|1989
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007119	SYM 1 yem&agr;-RA	TRL 1 4.5	ASM 1 in situ	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 5	DT 1 14 Nov 2001	RESZ 2348
ID|FBtr0007119
SYM|yem&agr;-RA
ASAL|<fbsym>FBal0071496==yem&agr;<up>+</up></fbsym>
DT|14 Nov 2001
|1 Oct 2001
ARGS|FBgn0005596
ASGN|<fbsym>FBgn0005596==yem&agr;</fbsym>
ASPP|<fbsym>FBpp0003728==yem&agr;-P1</fbsym>

REFDSR
{
RDID|FBrf0046009
|Ait-Ahmed et al.
|1987
RNAT|mRNA
TRL|4.5 (northern blot)
BODP|The 4.5 kb <fbsym>yem&agr;</fbsym> transcript localizes to the periphery of the oocyte
| nucleus at stage S7 of oogenesis. By stage S8, when the nucleus starts
| migrating dorsally, transcripts are localized anteriorly. The anterior
| localization is maintaineduntil at least stage S10A of oogenesis. At stage
| S10B, localization becomes uniform. The transcripts are localized uniformly
| in the preblastoderm embryo. Transcript levels are lower in the syncytial
| blastoderm embryo, barely detectable during gastrulation, and not detected
| after gastrulation.
ASM|northern blot
CVBODP|northern blot
|<t> E | <gastrulation <a>  <p>
|dot blot
|<t> A, O <a> ovary <p>
|<t> E | <=gastrulation <a>  <p>
|radioisotope in situ
|<t> A, O | stage >=S7 <a> oocyte <p>
|<t> E | <=gastrulation <a>  <p>
}

REFDSR
{
RDID|FBrf0051423
|Ait-Ahmed et al.
|1990
RNAT|mRNA
BODP|The 4.5 kb <fbsym>yem&agr;</fbsym> transcript is maternal. It is abundant in the ovary
| and in pre-gastrulation embryos.
ASM|dot blot
CVBODP|dot blot
|<t> A,O <a> ovary <p>
|<t> E | <=gastrulation <a>  <p>
}

REFDSR
{
RDID|FBrf0057147
|Ait-Ahmed et al.
|1992
RNAT|mRNA
TRL|4.5 (northern blot)
EXNSQ|1-6
}

REFDSR
{
RDID|FBrf0099845
|Capri et al.
|1997
RNAT|mRNA
BODP|During oogenesis, <fbsym>yem&agr;</fbsym> transcript is first detected in germarium
| region 2, in the presumptive oocyte. Before stage 8, expression is detected
| in the posterior pole of the oocyte, while expression is detected in the
| anterior pole at stages S8-S10A. From stage S10B on, expression is uniform
| in the oocyte.
ASM|in situ
CVBODP|in situ
|<t> A, O <a> germarium region 2 <p>
|<t> A, O | stage <=S7 <a> oocyte | posterior <p>
|<t> A, O | stage S8-S10A <a> oocyte | anterior <p>
|<t> A, O | stage >=S10B <a> oocyte <p>
}

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,4,5,6
}

REF
{
REFM|FBrf0046009
|Ait-Ahmed et al.
|1987
REFM|FBrf0051423
|Ait-Ahmed et al.
|1990
REFM|FBrf0057147
|Ait-Ahmed et al.
|1992
REFM|FBrf0099845
|Capri et al.
|1997
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007161	SYM 1 Ecol\lacZ<up>yem&agr;.DM</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 Nov 2001	RESZ 1081
ID|FBtr0007161
SYM|Ecol\lacZ<up>yem&agr;.DM</up>RA
ASAL|<fbsym>FBal0082470==Ecol\lacZ<up>yem&agr;.DM</up></fbsym>
DT|14 Nov 2001
|14 Nov 2001
ASTP|<fbsym>FBtp0008834==P{yem&agr;-lacZ.DM}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0099845
|Capri et al.
|1997
RNAT|mRNA
BODP|Role of the <fbsym>yem&agr;</fbsym> nascent peptide in transport was studied by mutating
| the start codon of <fbsym>yem&agr;</fbsym> protein to TTG. No difference in expression
| pattern was observed when compared to the
| <fbsym>Ecol\lacZ<up>yem&agr;.D</up></fbsym> construct which is identical in
| every way except for the start codon. Expression is detected in a pattern
| similar to wild-type <fbsym>yem&agr;</fbsym> transcript.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A, O <a> germarium region 2 <p>
|<t> A, O | stage <=S7 <a> oocyte | posterior <p>
|<t> A, O | stage S8-S10A <a> oocyte | anterior <p>
|<t> A, O | stage >=S10B <a> oocyte <p>
}

REF
{
REFM|FBrf0099845
|Capri et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007162	SYM 1 Ecol\lacZ<up>yem&agr;.DAE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 Nov 2001	RESZ 800
ID|FBtr0007162
SYM|Ecol\lacZ<up>yem&agr;.DAE</up>RA
ASAL|<fbsym>FBal0082471==Ecol\lacZ<up>yem&agr;.DAE</up></fbsym>
DT|14 Nov 2001
|14 Nov 2001
ASTP|<fbsym>FBtp0008835==P{yem&agr;-lacZ.DAE}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0099845
|Capri et al.
|1997
RNAT|mRNA
BODP|Reporter accumulates in the same pattern in oocytes as the wild-type
| <fbsym>yem&agr;</fbsym> transcript.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A, O <a> germarium region 2 <p>
|<t> A, O | stage <=S7 <a> oocyte | posterior <p>
|<t> A, O | stage S8-S10A <a> oocyte | anterior <p>
|<t> A, O | stage >=S10B <a> oocyte <p>
ASCRGN|<fbsym>FBgn0005596==yem&agr;</fbsym>
}

REF
{
REFM|FBrf0099845
|Capri et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007163	SYM 1 Ecol\lacZ<up>yem&agr;.&Dgr;A'</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 20 Nov 2001	RESZ 844
ID|FBtr0007163
SYM|Ecol\lacZ<up>yem&agr;.&Dgr;A'</up>RA
ASAL|<fbsym>FBal0082474==Ecol\lacZ<up>yem&agr;.&Dgr;A'</up></fbsym>
DT|20 Nov 2001
|14 Nov 2001
ASTP|<fbsym>FBtp0008838==P{yem&agr;-lacZ.&Dgr;A'}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0099845
|Capri et al.
|1997
RNAT|mRNA
BODP|Deletion of the <fbsym>yem&agr;</fbsym> coding region from the reporter construct affects
| localization dramatically compared to wild-type <fbsym>yem&agr;</fbsym> transcript
| expression. Rather than being detected only in the oocyte, the reporter is
| detected in the entire egg chamber from an early stage.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A,O <a> nurse cell <p>
|<t> A,O <a> oocyte <p>
}

REF
{
REFM|FBrf0099845
|Capri et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007164	SYM 1 Ecol\lacZ<up>yem&agr;.E</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 Nov 2001	RESZ 794
ID|FBtr0007164
SYM|Ecol\lacZ<up>yem&agr;.E</up>RA
ASAL|<fbsym>FBal0082469==Ecol\lacZ<up>yem&agr;.E</up></fbsym>
DT|14 Nov 2001
|14 Nov 2001
ASTP|<fbsym>FBtp0008833==P{yem&agr;-lacZ.E}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0099845
|Capri et al.
|1997
RNAT|mRNA
BODP|Reporter accumulates in the same pattern in oocytes as the wild-type
| <fbsym>yem&agr;</fbsym> transcript.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A, O <a> germarium region 2 <p>
|<t> A, O | stage <=S7 <a> oocyte | posterior <p>
|<t> A, O | stage S8-S10A <a> oocyte | anterior <p>
|<t> A, O | stage >=S10B <a> oocyte <p>
ASCRGN|<fbsym>FBgn0005596==yem&agr;</fbsym>
}

REF
{
REFM|FBrf0099845
|Capri et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007165	SYM 1 Ecol\lacZ<up>yem&agr;.D</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 14 Nov 2001	RESZ 794
ID|FBtr0007165
SYM|Ecol\lacZ<up>yem&agr;.D</up>RA
ASAL|<fbsym>FBal0082472==Ecol\lacZ<up>yem&agr;.D</up></fbsym>
DT|14 Nov 2001
|14 Nov 2001
ASTP|<fbsym>FBtp0008836==P{yem&agr;-lacZ.D}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0099845
|Capri et al.
|1997
RNAT|mRNA
BODP|Reporter accumulates in the same pattern in oocytes as the wild-type
| <fbsym>yem&agr;</fbsym> transcript.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A, O <a> germarium region 2 <p>
|<t> A, O | stage <=S7 <a> oocyte | posterior <p>
|<t> A, O | stage S8-S10A <a> oocyte | anterior <p>
|<t> A, O | stage >=S10B <a> oocyte <p>
ASCRGN|<fbsym>FBgn0005596==yem&agr;</fbsym>
}

REF
{
REFM|FBrf0099845
|Capri et al.
|1997
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007175	SYM 1 bcd-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 30 Jan 2002	RESZ 249
ID|FBtr0007175
SYM|bcd-RC
ASAL|<fbsym>FBal0068679==bcd<up>+</up></fbsym>
DT|30 Jan 2002
|30 Jan 2002
ASGN|<fbsym>FBgn0000166==bcd</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,5,4
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007185	SYM 1 Ecol\lacZ<up>Adh.EcRE</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 1 Mar 2004	RESZ 1069
ID|FBtr0007185
SYM|Ecol\lacZ<up>Adh.EcRE</up>RA
ASAL|<fbsym>FBal0057023==Ecol\lacZ<up>Adh.EcRE</up></fbsym>
DT|1 Mar 2004
|1 Mar 2004
ASTP|<fbsym>FBtp0001553==P{EcRE.lacZ}</fbsym>
|<fbsym>FBmc0001437==pP{EcRE.lacZ}</fbsym>
|<fbsym>FBmc0001438==p7xEcRE-lacZ</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0103241
|Brennan et al.
|1998
RNAT|mRNA
BODP|In third instar larval eye disc, expression restricted to a zone in and
| slightly anterior to the morphogenetic furrow; first observed when the
| morphogenetic furrow has produced 10-12 columns of ommatidia; travels with
| the furrow until the end of third instar, when it becomes ubiquitous.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> morphogenetic furrow <p>  <s>  <c>  <l>
}

REFDSR
{
RDID|FBrf0144990
|Ghbeish and McKeown
|2002
RNAT|mRNA
ASM|transcript distribution deduced from reporter protein
}

REF
{
REFM|FBrf0103241
|Brennan et al.
|1998
REFM|FBrf0144990
|Ghbeish and McKeown
|2002
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007198	SYM 1 Ecol\lacZ<up>stg.&bgr;</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 1 Mar 2004	RESZ 1466
ID|FBtr0007198
SYM|Ecol\lacZ<up>stg.&bgr;</up>RA
ASAL|<fbsym>FBal0086451==Ecol\lacZ<up>stg.&bgr;</up></fbsym>
DT|1 Mar 2004
|1 Mar 2004
ASTP|<fbsym>FBtp0009164==P{stg-lacZ.&bgr;}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0105495
|FlyBase
|1992-
ASCRGN|<fbsym>FBgn0003525==stg</fbsym>
}

REFDSR
{
RDID|FBrf0108420
|Lehman et al.
|1999
RNAT|mRNA
BODP|In early embryos, expressed in a few CNS neuroblasts late in embryogenesis.
|  In second and third instar larvae, expressed in many larval neuroblasts.
| Embryonic spatial expression also described in terms of mitotic domains.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | early <a> embryonic epidermis | lateral <p>  <s>  <c>  <l>
|<t> E | early <a> embryonic central nervous system <p>  <s>  <c>  <l>
|<t> E | early <a> embryonic neuroblast <p>  <s>  <c>  <l>
|<t> L<a> neuroblast <p>  <s>  <c>  <l>
|<t> L <a> larval central nervous system <p>  <s>  <c>  <l>
|<t> L <a> optic lobe <p>  <s>  <c>  <l>
}

REFDSR
{
RDID|FBrf0141493
|Deng et al.
|2001
RNAT|mRNA
BODP|During oogenesis, weak expression in early germline.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A,O <a> germline stem cell <p>  <s>  <c>  <l>
}

REF
{
REFM|FBrf0105495
|FlyBase
|1992-
REFM|FBrf0108420
|Lehman et al.
|1999
REFM|FBrf0141493
|Deng et al.
|2001
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007199	SYM 1 Ecol\lacZ<up>stg.HZ</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 1 Mar 2004	RESZ 1043
ID|FBtr0007199
SYM|Ecol\lacZ<up>stg.HZ</up>RA
ASAL|<fbsym>FBal0097271==Ecol\lacZ<up>stg.HZ</up></fbsym>
DT|1 Mar 2004
|1 Mar 2004
ASTP|<fbsym>FBtp0010906==P{stg-lacZ.HZ}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0105495
|FlyBase
|1992-
CVBODP|<t> E | early <a> embryonic epidermis | lateral <p>  <s>  <c>  <l>
|<t> E | early <a> embryonic central nervous system <p>  <s>  <c>  <l>
|<t> E | early <a> embryonic neuroblast <p>  <s>  <c>  <l>
ASCRGN|<fbsym>FBgn0003525==stg</fbsym>
}

REFDSR
{
RDID|FBrf0108420
|Lehman et al.
|1999
RNAT|mRNA
BODP|Embryonic spatial expression also described in terms of mitotic domains
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | early <a> embryonic epidermis | lateral <p>  <s>  <c>  <l>
|<t> E | early <a> embryonic central nervous system <p>  <s>  <c>  <l>
|<t> E | early <a> embryonic neuroblast <p>  <s>  <c>  <l>
}

REF
{
REFM|FBrf0105495
|FlyBase
|1992-
REFM|FBrf0108420
|Lehman et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007211	SYM 1 Ecol\lacZ<up>dpn.dA</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 1 Mar 2004	RESZ 1463
ID|FBtr0007211
SYM|Ecol\lacZ<up>dpn.dA</up>RA
ASAL|<fbsym>FBal0047641==Ecol\lacZ<up>dpn.dA</up></fbsym>
DT|1 Mar 2004
|1 Mar 2004
ASTP|<fbsym>FBtp0005535==P{dpn-lacZ.dA}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0083890
|Emery and Bier
|1995
RNAT|mRNA
BODP|In embryo, in precellular blastoderm, exhibits ubiquitous expression;
| starting at stage 9, exhibits pan-neural expression (both CNS and PNS).
| Embryonic expression reflects that of wild-type <fbsym>FBgn0010109==dpn</fbsym>, except is not
| expressed in pair-rule strippedpattern (late in stage 4) nor in proneural
| patches (extended germ band).
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E | cycle 13 embryo <a>  <p> ubiquitous <s>  <c>  <l>
|<t> E | stage >=9 <a> embryonic nervous system <p>  <s>  <c>  <l>
}

REFDSR
{
RDID|FBrf0111371
|Gho et al.
|1999
RNAT|mRNA
BODP|In pupae, expressed at high level in SOPIIa and at low level in SOPIIb;
| expression is cytoplasmic.
MRK|external sensory organ precursor cell IIa
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> P <a> external sensory organ precursor cell IIa <p>  <s> cytoplasm <c>  <l> high
|<t> P <a> external sensory organ precursor cell IIb <p>  <s> cytoplasm <c>  <l> low
}

REF
{
REFM|FBrf0083890
|Emery and Bier
|1995
REFM|FBrf0111371
|Gho et al.
|1999
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007223	SYM 1 Ecol\lacZ<up>ninaE.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 1 Mar 2004	RESZ 563
ID|FBtr0007223
SYM|Ecol\lacZ<up>ninaE.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0104883==Ecol\lacZ<up>ninaE.T:Btau\MAPT</up></fbsym>
DT|1 Mar 2004
|1 Mar 2004
ASTP|<fbsym>FBtp0012546==P{ninaE-&tgr;lacZ.N}</fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0128589
|Newsome et al.
|2000
RNAT|mRNA
MRK|photoreceptor cell R1..R6
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A <a> photoreceptor cell R1..R6 <p>  <s>  <c>  <l>
}

REF
{
REFM|FBrf0128589
|Newsome et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007224	SYM 1 Ecol\lacZ<up>bi.T:Btau\MAPT</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 1 Mar 2004	RESZ 574
ID|FBtr0007224
SYM|Ecol\lacZ<up>bi.T:Btau\MAPT</up>RA
ASAL|<fbsym>FBal0118512==Ecol\lacZ<up>bi.T:Btau\MAPT</up></fbsym>
DT|1 Mar 2004
|1 Mar 2004
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0128589
|Newsome et al.
|2000
RNAT|mRNA
BODP|Used to mark axons of the polar (ventral-most and dorsal-most) photoreceptors.
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L | third instar <a> photoreceptor cell | subset <p>  <s>  <c>  <l>
}

REF
{
REFM|FBrf0128589
|Newsome et al.
|2000
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0007242	SYM 1 Ecol\lacZ<up>byn-apro</up>RA	TRL 1 -	ASM 1 transcript distribution deduced from reporter protein	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 3	DT 1 23 Nov 2005	RESZ 1192
ID|FBtr0007242
SYM|Ecol\lacZ<up>byn-apro</up>RA
ASAL|<fbsym>FBal0056701==Ecol\lacZ<up>byn-apro</up></fbsym>
DT|23 Nov 2005
|1 Mar 2004
ASTI|<fbsym>FBti0004092==P{PZ}byn<up>apro</up></fbsym>
ASGN|<fbsym>FBgn0014447==Ecol\lacZ</fbsym>

REFDSR
{
RDID|FBrf0111436
|Moreno and Morata
|1999
RNAT|mRNA
MRK|adult hindgut
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> A <a> hindgut <p>
ASCRGN|<fbsym>FBgn0011723==byn</fbsym>
}

REFDSR
{
RDID|FBrf0151948
|Johansen et al.
|2003
RNAT|mRNA
MRK|embryonic hindgut
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> E <a> embryonic hindgut <p>  <s> nucleus <c>  <l>
}

REFDSR
{
RDID|FBrf0178997
|Copf et al.
|2003
RNAT|mRNA
MRK|dorsal mesothoracic disc | restricted
ASM|transcript distribution deduced from reporter protein
CVBODP|transcript distribution deduced from reporter protein
|<t> L <a> dorsal mesothoracic disc | restricted <p>
ASCRGN|<fbsym>FBgn0011723==byn</fbsym>
}

REF
{
REFM|FBrf0111436
|Moreno and Morata
|1999
REFM|FBrf0151948
|Johansen et al.
|2003
REFM|FBrf0178997
|Copf et al.
|2003
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070025	SYM 1 AnnX-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 288
ID|FBtr0070025
SYM|AnnX-RA
ASAL|<fbsym>FBal0066386==AnnX<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0000084
ASGN|<fbsym>FBgn0000084==AnnX</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070038	SYM 1 &agr;-Cat-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 347
ID|FBtr0070038
SYM|&agr;-Cat-RA
SYN|CG17947-RA
ASAL|<fbsym>FBal0066290==&agr;-Cat<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0010215==&agr;-Cat</fbsym>
ASPP|<fbsym>FBpp0070037==&agr;-Cat-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070042	SYM 1 CkII&agr;-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 347
ID|FBtr0070042
SYM|CkII&agr;-RA
SYN|CG17520-RA
ASAL|<fbsym>FBal0066501==CkII&agr;<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000258==CkII&agr;</fbsym>
ASPP|<fbsym>FBpp0070041==CkII&agr;-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070043	SYM 1 CkII&agr;-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 347
ID|FBtr0070043
SYM|CkII&agr;-RB
SYN|CG17520-RB
ASAL|<fbsym>FBal0066501==CkII&agr;<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000258==CkII&agr;</fbsym>
ASPP|<fbsym>FBpp0070042==CkII&agr;-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070044	SYM 1 CkII&agr;-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 347
ID|FBtr0070044
SYM|CkII&agr;-RC
SYN|CG17520-RC
ASAL|<fbsym>FBal0066501==CkII&agr;<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000258==CkII&agr;</fbsym>
ASPP|<fbsym>FBpp0070043==CkII&agr;-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070047	SYM 1 Qm-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070047
SYM|Qm-RA
SYN|CG17521-RA
ASAL|<fbsym>FBal0092042==Qm<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0024733==Qm</fbsym>
ASPP|<fbsym>FBpp0070046==Qm-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070048	SYM 1 Qm-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070048
SYM|Qm-RB
SYN|CG17521-RB
ASAL|<fbsym>FBal0092042==Qm<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0024733==Qm</fbsym>
ASPP|<fbsym>FBpp0070047==Qm-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070064	SYM 1 cin-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070064
SYM|cin-RB
SYN|CG2945-RB
ASAL|<fbsym>FBal0068758==cin<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000316==cin</fbsym>
ASPP|<fbsym>FBpp0070063==cin-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070065	SYM 1 cin-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070065
SYM|cin-RA
ASAL|<fbsym>FBal0068758==cin<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0000316
ASGN|<fbsym>FBgn0000316==cin</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070071	SYM 1 y-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 22290
ID|FBtr0070071
SYM|y-RA
ASAL|<fbsym>FBal0071495==y<up>+</up></fbsym>
DT|5 Jun 2004
|11 May 2000
ARGS|FBgn0004034
ASGN|<fbsym>FBgn0004034==y</fbsym>
SK|FBst0000478
|T(1;Y)V8, y[1] w[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/Dp(1;Y)V8, <fbsym>FBal0071495==y[+]</fbsym> & C(1)A, y[1]/Dp(1;Y)V8, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0000700
|C(1;Y)1, y[1] v[1] f[1] B[1]: y[+]/C(1)RM, y[2] su(w[a])[1] w[a]
|FBst0000709
|Df(1)mal6, In(1)dl-49, In(1)B[M1], y[1] v[1] sn[X2] B[M1]/Dp(1;Y)y[+]mal[106], mal[106]/Df(1)mal3, y[2] ct[6] f[1], <fbsym>FBal0071495==y[+]</fbsym>
|FBst0000761
|Dp(1;f)R, y[+]/y[1] dor[8]
|FBst0000927
|T(1;Y)B28, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/0
|FBst0000942
|y[1]; Dp(3;Y)Antp[+], y[+]; Scr[W] Scr[4] p[p]/TM3, Sb[1] Ser[1]
|FBst0000975
|T(1;Y)B32, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/0
|FBst0000979
|T(1;Y)B47, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/0
|FBst0001110
|R(1;Y)EN, y[1]/In(1)dl-49, y[1] sc[1] w[1] g[2] f[1]; Dp(1;3)sc[J4], y[+]/+
|FBst0001139
|C(1)M3, y[2]/0; CyO/T(2;3)ap[Xa] & C(1;Y)1, y[1]: y[+]/0; CyO/T(2;3)ap[Xa], ap[Xa]
|FBst0001311
|C(1;YS)3, T(1;Y)W16, cv[1] v[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a
|FBst0001329
|Df(1)BA1, w[*]/FM7a; Dp(1;2)E1, y[+]/+
|FBst0001398
|C(1;Y)6, Dp(3;1)P115, y[2] sc[1] su(s)[2] pn[1] sn[3], y[+]/0 & C(1)M4, y[1]
|FBst0001436
|y[1] Klp3A[mei-352]/y[+]/C(1)DX, y[1] f[1]; sv[spa-pol]
|FBst0001449
|Ts(1Lt;Y)E5, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> & C(1)A, y[1]/0
|FBst0001476
|Df(1)tR15, ras[1] v[1]/FM7a; Dp(1;2)E1, y[+]/+
|FBst0001487
|Df(1)RH4/FM7a; Dp(1;2)E1, y[+]/+
|FBst0001500
|T(1;Y)B136, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/0
|FBst0001535
|C(1;Y)*, y[1]; Dp(3;Y)Antp[+], y[+]; Sb[1]/TM6
|FBst0001538
|Df(1)os[UE69]/C(1)DX, y[1] f[1]/Dp(1;Y)W39, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0001546
|T(1;3)sc[J4], sc[J4]/C(1)DX, y[1] f[1]; Dp(1;f)z9, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0001614
|y[1] w[*]; TM3, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]/Sb[1]
|FBst0001615
|FM6, B[+]/?; SM5/Dp(?;2)bw[D], wg[Sp-1] bw[D]; TM3, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]/Sb[1]
|FBst0001630
|Tp(2;Y)A151, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0001645
|y[1]; <fbsym>FBal0071495==y[+]</fbsym> bld[1] Sb[63b]/TM2
|FBst0001736
|T(1;Y)B152, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/0
|FBst0001737
|T(1;Y)B170, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/0
|FBst0001739
|T(1;Y)V7, y[1] w[1] f[1] Frq[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001742
|T(1;Y)V16, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001746
|T(1;Y)V29, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001754
|T(1;Y)V35, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001760
|T(1;Y)V59, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001768
|T(1;Y)V61, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001773
|T(1;Y)V64, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001775
|T(1;Y)W14, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001787
|T(1;Y)W23, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001826
|T(1;Y)W31, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0001848
|T(1;Y)G20, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1] w[1] f[1]
|FBst0001850
|T(1;Y)N5, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001855
|T(1;Y)P11, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001857
|T(1;Y)R2, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001864
|T(1;Y)R4, y[1] w[1] f[1]: y[+]/C(1)A, y[1]
|FBst0001880
|T(1;Y)R34, y[1] w[1] f[1]: y[+]/C(1)A, y[1]
|FBst0001881
|T(1;Y)R38, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001895
|T(1;Y)S19, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001904
|T(1;Y)S29, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001912
|T(1;Y)T9, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001913
|T(1;Y)T16, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001915
|T(1;Y)V43, y[1] w[1] Ste[+] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001920
|C(1;Y)1, y[+]; Df(3R)sbd104/TM2, ry[*]
|FBst0001922
|T(1;Y)V63, y[1] w[1] Ste[+] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0001953
|T(1;Y)10, y[+]/C(1)DX, y[1] f[1]
|FBst0001960
|T(1;Y)B10, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] f[1]
|FBst0001963
|T(1;Y)B17, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] f[1]
|FBst0001969
|T(1;Y)B18, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] f[1]
|FBst0001977
|T(1;Y)B26, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001978
|T(1;Y)B29, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001981
|T(1;Y)B36, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001985
|T(1;Y)B38, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001987
|T(1;Y)B44, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001991
|T(1;Y)B50, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001994
|T(1;Y)B53, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0001995
|T(1;Y)B54, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002002
|T(1;Y)B56, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002003
|T(1;Y)B57, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002006
|Df(3R)Scx2, red[1] e[1]/TM3, Sb[1]; Dp(3;Y)Antp[+], <fbsym>FBal0071495==y[+]</fbsym>
|FBst0002008
|T(1;Y)B59, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002016
|T(1;Y)B60, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002018
|T(1;Y)B61, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002020
|T(1;Y)B62, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002022
|T(1;Y)B67, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002028
|T(1;Y)B88, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002037
|T(1;Y)B89, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002043
|T(1;Y)B97, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002048
|T(1;Y)B101, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002049
|T(1;Y)B105, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002067
|T(1;Y)B106, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002081
|T(1;Y)B110, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002110
|T(1;Y)B114, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002116
|T(1;Y)B116, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002117
|T(1;Y)B117, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002119
|T(1;Y)B123, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] f[1]
|FBst0002123
|T(1;Y)B128, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1]
|FBst0002130
|T(1;Y)B131, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002160
|T(1;Y)B132, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002163
|T(1;Y)B134, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002164
|Dp(1;f)65X[C2], y[+]/C(1)RA60g/C(1;Y)*, y[1] v[1] f[1] car[1]
|FBst0002166
|T(1;Y)B139, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002167
|T(1;Y)B141, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002327
|T(1;Y)B143, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002346
|T(1;Y)B146, y[1] mud[B146]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002348
|Df(2L)J69[L]H56[R], y[+]/CyO
|FBst0002357
|T(1;Y)B148, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002359
|T(1;Y)B149, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002360
|T(1;Y)B150, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002370
|T(1;Y)B156, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002474
|T(1;Y)G25, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0002486
|C(1;Y)2, y[+]/0 & C(1)RM, y[1] v[1]/0
|FBst0002494
|C(1;Y)1, y[1] w[A738]: y[+]/0 & C(1)RM, y[1] v[1]/0
|FBst0002496
|C(1;Y)8, y[1] su(w[a])[1] w[a]: y[+]; kni[ri-1] p[p] & C(1)RM, y[1] v[1] bb[1]; kni[ri-1] p[p]
|FBst0002556
|C(1;Y)1, y[1] v[1] f[1] B[1]: y[+]/0 & C(1)RM, y[1] v[1]/0
|FBst0002562
|C(1;YL)1, bb[+] ac[+] y[+]/C(1;YS)1, y[1] w[1] & C(1)DX, y[1] f[1]/0
|FBst0002575
|T(1;Y)N29, y[1] w[a] Ste[+] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0002635
|T(Y;2)B80, B[S], y[+]/SM1; kni[ri-1]; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002643
|T(Y;2)B137, y[+], tkv[B137]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002657
|Tp(2;Y)B231, B[S], y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002670
|Tp(2;Y)D203, B[S], y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002681
|Tp(2;Y)G44, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002694
|Tp(2;Y)H64, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002716
|Tp(2;Y)J64, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002724
|T(Y;2)J146, B[S], y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002727
|T(Y;2)J165, esg[dgl], B[S], ks-1[J165] y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002731
|Tp(2;Y)L12, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002751
|T(Y;2)P8, B[S], ks-1[P8] y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002756
|T(Y;2)P57, B[S], <fbsym>FBal0071495==y[+]</fbsym> kl-3[P57]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002762
|Tp(2;Y)R31, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002763
|T(Y;2)R50, kl-5[R50] B[S], y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002764
|Tp(2;Y)R70, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002787
|Tp(3;Y)A81, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002791
|T(1;Y)P7, y[1] w[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)*, y[2]
|FBst0002823
|Tp(3;Y)B150, y[+]/TM6; bw[1]; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002828
|Tp(3;Y)B162, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002832
|T(Y;3)B197, B[S], y[+], mar[1]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002833
|Tp(3;Y)B204, B[S], y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002835
|Tp(3;Y)B216, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002836
|Tp(3;Y)B219, B[S], y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1] w[1]
|FBst0002841
|Tp(3;Y)B233, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002861
|Tp(3;Y)G63, B[S], y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002870
|C(1;Y)1, y[1] g[2] na[1]/FM3/Dp(1;f)LJ8, <fbsym>FBal0071495==y[+]</fbsym> g[+] na[+] Ste[+]
|FBst0002874
|Tp(3;Y)G145, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002879
|Tp(3;Y)H141, B[S], y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002891
|T(Y;3;4)J23, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002894
|Tp(3;Y)J82, B[S], y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002895
|T(1;Y)R12, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002901
|T(1;Y)B159, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002902
|Dp(1;3)sc[J4], <fbsym>FBal0071495==y[+]</fbsym> flr[1]/TM1; y[1]
|FBst0002903
|T(1;Y)B161, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002906
|T(1;Y)B162, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002909
|Tp(3;Y)J158, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002914
|Tp(3;Y)L58, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002922
|T(1;Y)E1, y[1] w[a] Ste[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)*, y[1] w[a]
|FBst0002923
|T(Y;3)L129, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002924
|T(1;Y)B163, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002925
|T(1;Y)B164, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002928
|T(1;Y)N12, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0002942
|Tp(3;Y)R97, y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002946
|T(1;Y)B166, y[1] g[B166]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002949
|T(Y;3)R128, y[+], Ser[Bd-r5]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002950
|T(1;Y)W19, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0002955
|T(1;Y)B168, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002958
|T(Y;3)S50, B[S], y[+]/TM6; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0002963
|T(1;Y)B172, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002964
|T(1;Y)D1, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002965
|T(1;Y)D7, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002966
|T(1;Y)D10, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002967
|T(1;Y)D17, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002970
|T(1;Y)J1, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] f[1]
|FBst0002971
|T(1;Y)J102, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002972
|T(1;Y)J104, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0002982
|T(1;Y)J108, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0003060
|T(1;Y)V24, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0003074
|T(1;Y)1, y[+]/FM6
|FBst0003082
|T(1;Y)2, y[+]/FM6
|FBst0003083
|T(1;Y)16, y[+]/FM6
|FBst0003137
|T(1;Y)J2, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/Y
|FBst0003139
|T(1;Y)J8, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/Y
|FBst0003140
|T(1;Y)P12, y[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/Y
|FBst0003144
|T(1;Y)J2, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)*
|FBst0003149
|cin[1] y[1] pn[1] v[1] f[1] mal[1] l(1)20Cb[2]; Tp(3;Y)A76, B[S], y[+]/TM6
|FBst0003156
|Tp(2;Y)D208, y[+]/SM1; C(1)RM, y[1]/C(1;Y)1, y[1]
|FBst0003158
|T(1;Y)F12, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0003219
|C(1;Y)1, Df(1)g, y[1] f[1] B[1]/C(1)A, y[1]/Dp(1;f)LJ9, <fbsym>FBal0071495==y[+]</fbsym> g[+] na[+] Ste[+]
|FBst0003224
|T(1;Y)E15, y[1] w[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0003239
|T(1;Y)G8, y[1] w[1] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)A, y[1]
|FBst0003389
|T(1;Y)S7, y[1] w[a] f[1]: <fbsym>FBal0071495==y[+]</fbsym> B[S]/C(1)DX, y[1] w[1] f[1]
|FBst0003658
|Df(1)sd72a/FM7a, Df(1)FM7, l(1)*[*] & Df(1)sd72a/Dp(1;Y)shi[+]1, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0003710
|C(1;Y)2, y[1] P{w[+mC]=lacW}5-45fD w[*] P{w[+mC]=lacW}4-5fP P{w[+mC]=lacW}3-52d P{w[+mC]=lacW}3-76a: y[+]/0/C(1)RM, y[1] pn[1]
|FBst0003752
|C(1)RM, y[1] v[1] bb[-]/0/C(1;Y)129-16, y[2] <fbsym>FBal0071495==y[+]</fbsym> su(w[a])[1] w[a]
|FBst0003758
|C(1)RM, y[1] v[1] bb[-]/0/C(1;Y)110-8, y[2] <fbsym>FBal0071495==y[+]</fbsym> su(w[a])[1] w[a]
|FBst0003807
|C(1)RM, y[2] su(w[a])[1] w[a] bb[-]/0/C(1;Y)1, y[1] y[+]; dp[olv] wg[Sp-1] cn[1]/In(2L)Cy, S[2] Cy[1] cn[1] bw[1] sp[1]
|FBst0003940
|Dp(1;f)1187, P{ry[+t7.2]=PZ}0801 P{ry[+t7.2]=PZ}8-23 y[+]; Df(1)sc[8], y[1] sc[8] w[a]; ry[506]
|FBst0004048
|Basc/R(1;Y)EN, y[1]; Dp(1;3)sc[J4], y[+]/+
|FBst0004049
|C(1)A, y[1]; T(1;Y;3)W27, y[1] <fbsym>FBal0071495==y[+]</fbsym> w[1] f[1] B[S]
|FBst0004166
|w[*] Chc[1]/FM7c/Dp(1;Y)shi[+]1, <fbsym>FBal0071495==y[+]</fbsym> B[S]
|FBst0004298
|Dp(1;Y)B[SCV], y[+]/Inscy
|FBst0004409
|y[1] w[*]; P{w[+mC]=AyGAL4}25 P{w[+mC]=UAS-lacZ.B}Bg4-1-2/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004410
|y[1] w[*]; P{w[+mC]=AyGAL4}25 P{w[+mC]=UAS-lacZ.NZ}20b/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004412
|y[1] w[*]; P{w[+mC]=AyGAL4}25 P{w[+mC]=UAS-CD2}5/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004414
|y[1] w[*]; P{w[+mC]=Act5C-GAL4}25FO1/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004459
|Dp(1;1)L-y[+], Df(1)bb3a, y[1] <fbsym>FBal0071495==y[+]</fbsym> cv[1] v[1] f[1]/C(1)DX, y[1] f[1]
|FBst0004469
|Tp(1;Y)B33, y[1] <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a/0
|FBst0004485
|C(1)RM, y[1] sc[1] t[2] v[1] f[1] car[1]/C(1;Y)1, y[1] <fbsym>FBal0071495==y[+]</fbsym> w[1] sn[5] oc[1] ptg[1] v[1]/0
|FBst0004487
|C(1;1;YL)RA[.]YL: In(1)sc[8L]EN[R], y[1]: y[+]/Dp(1;YL)sc[S1]/C(1;Y)1, y[1] B[1]
|FBst0004541
|y[1] w[*]; Chi[e5.5]/CyO, Ts(Y;2Lt)B80, Kr[-] <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004542
|y[1] w[*]; Df(2R)Chi[g230], P{w[+mF] ry[+t7.2]=wF}4-1/CyO, Ts(Y;2Lt)B80, Kr[-] <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004566
|T(1;Y)B16, <fbsym>FBal0071495==y[+]</fbsym> B[S]/FM7a
|FBst0004900
|y[1] w[1]; EcR[31]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004901
|y[1] w[1]; EcR[V559fs]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0004914
|Dp(1;1)sc[V1], y[1] mei-218[1] car[1], y[+]/C(1)DX, y[1] f[1]
|FBst0005128
|C(1;Y)1, y[1] sn[3] l(1)dd4[1]/C(1)RM, y[1] v[1]; Dp(1;f)LJ9, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005279
|Df(1)JC70/Dp(1;Y)dx[+]5, y[+]/C(1)M5
|FBst0005292
|y[1] nej[Q7] v[1] f[1]/Dp(1;Y)FF1, y[+]/C(1)DX, y[1] w[1] f[1]
|FBst0005323
|y[1] w[*]; l(2)38Db[52] dp[ov1] bw[1]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005324
|y[1] w[*]; l(2)38Ea[66] dp[ov1] bw[1]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005325
|y[1] w[*]; l(2)38Eb[51] dp[ov1] bw[1]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005326
|y[1] w[*]; l(2)38Eb[54] dp[ov1] bw[1]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005578
|y[1] w[1]; Klp64D[k1]/TM3, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]
|FBst0005596
|Dp(1;Y)BSC1, y[+]/w[*] tsg[2]/C(1)RM, y[1] v[1]
|FBst0005617
|y[d2] w[1118] P{ry[+t7.2]=ey-FLP.N}2 P{GMR-lacZ.C(38.1)}TPN1; P{ry[+t7.2]=neoFRT}42D P{w[+t*] ry[+t*]=white-un1}47A l(2)cl-R11[1]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005622
|y[d2] w[1118] P{ry[+t7.2]=ey-FLP.N}2 P{GMR-lacZ.C(38.1)}TPN1; l(2)cl-L3[1] P{w[+t*] ry[+t*]=white-un1}30C P{ry[+t7.2]=neoFRT}40A/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005674
|y[1] w[1]; Klp64D[n123]/TM3, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]
|FBst0005677
|Dp(1;Y)578, <fbsym>FBal0071495==y[+]</fbsym> B[S]/y[1] Lim1[E9] f[36a]/C(1)DX, y[1] f[1]
|FBst0005678
|Dp(1;Y)619, <fbsym>FBal0071495==y[+]</fbsym> B[S]/w[1] oc[9]/C(1)DX, y[1] w[1] f[1]
|FBst0005679
|Dp(1;Y)850, y[+]/w[1] oc[9]/C(1)DX, y[1] w[1] f[1]
|FBst0005680
|Df(2R)robl-c/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0005703
|w[1]; T(2;3)CyO-TM3, P{w[+mC]=GAL4-Hsp70.PB}TR1, P{w[+mC]=UAS-GFP.Y}TR1: P{GAL4-Hsp70.PB}TR2, P{UAS-GFP.Y}TR2, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]/noc[Sco]; Sb[1]
|FBst0005704
|w[1]; Sb[1]/TM3, P{w[+mC]=GAL4-Hsp70.PB}TR2, P{w[+mC]=UAS-GFP.Y}TR2, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]
|FBst0005794
|Dp(1;Y)BSC2, y[+]/w[*] tsg[2]/C(1)RM, y[1] v[1]
|FBst0005795
|Dp(1;Y)BSC4, y[+]/w[67c23] P{w[+mC]=lacW}l(1)G0060[G0060]/C(1)RM, y[1] v[1]
|FBst0005796
|Dp(1;Y)BSC5, y[+]/w[67c23] P{w[+mC]=lacW}l(1)G0060[G0060]/C(1)RM, y[1] v[1]
|FBst0005838
|Df(3L)B71, y[+]/TM6C, Sb[1]
|FBst0006330
|y[1]; Dp(1;3)sc[J4], y[+], RpS17[4]/TM1
|FBst0006343
|y[1] w[*]; P{w[+m*]=GAL4-ey.H}3-8, P{w[+mC]=UAS-FLP1.D}JD1/CyO, y[+]; P{w[+mW.hs]=FRT(w[hs])}2A P{w[+mC]=GMR-hid}SS3, l(3)CL-L[1]/TM6, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0006348
|Df(1)sc[8], w[a]/C(1)M3, y[2]; Dp(1;3)sc[J4], y[+], jv[1]
|FBst0006349
|Df(1)sc[8], w[a]/C(1)M3, y[2]; Dp(1;3)sc[J4], y[+], mwh[1] jv[1]/TM1
|FBst0006352
|y[1]; Opt[G]; Dp(1;3)sc[J4], y[+]/+; ey[2]
|FBst0006805
|y[1] w[*]; Cam[n339]/CyO, y[+]; P{w[+mC]=UAS-Cam.B34Q}3
|FBst0006806
|y[1] w[*]; Cam[n339]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0006807
|y[1] w[*]; Cam[n339]/CyO, y[+]; P{w[+mC]=UAS-Cam.V91G}3/+
|FBst0006808
|y[1] w[*]; Cam[n339]/CyO, y[+]; P{w[+mC]=UAS-Cam.B12Q}3
|FBst0006809
|y[1] w[*]; Cam[n339]/CyO, y[+]; P{w[+mC]=UAS-Cam.W}3
|FBst0006812
|y[1] w[*]; Rya-r44F[16]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0006907
|y[1] w[1118]; Wnt4[C1] Wnt2[L]/CyO, Ts(Y;2Lt)B80, Kr[-] <fbsym>FBal0071495==y[+]</fbsym>
|FBst0006974
|y[1] w[*]; RpL38[45-72]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0007132
|w[*] P{w[+mC]=lacW}l(1)8Da[H128B]/FM7c/Dp(1;Y)FF1, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0007136
|w[1] Dsor1[G79]/FM7c/Dp(1;Y)FF1, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0007307
|w[*]; l(2)41Ae[7]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0008140
|y[1] w[*]; J[1] Cam[7]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0008472
|y[1] w[*]; Cam[n339]/CyO, y[+]; P{w[+mC]=UAS-Cam.B1234Q}3
|FBst0008803
|y[1] w[*]; P{w[+mW.hs]=FRT(w[hs])}G13 robl[B]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0012284
|y[1] w[67c23]; P{w[+mC]=lacW}l(2)k10411[k10411]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|FBst0019364
|y[1] w[*]; P{w[+mW.hs]=FRT(w[hs])}2A P{ry[+t7.2]=neoFRT}82B PBac{GAL4D,EYFP}PL00039/TM3, <fbsym>FBal0071495==y[+]</fbsym> Ser[1]
|FBst1000020
|y; CyO/ In(2LR)Pm Dp(1;2)sc[19], <fbsym>FBal0071495==y[+]</fbsym> bw[V1]
|FBst1000064
|C(1)RM, y[2]/ y; TM3, y[+]/ Sb
|FBst1000199
|C(1)DX, <fbsym>FBgn0004034==y</fbsym> w f/ Df(1)sc[8] In(1)sc[8], w[a]/ <fbsym>FBal0071495==y[+]</fbsym> Y
|FBst1000200
|Df(1)bb[l158], y/ <fbsym>FBal0071495==y[+]</fbsym> Y; K-pn ca
|FBst1000211
|Df(1)run[III2], <fbsym>FBgn0004034==y</fbsym> f[36a]/ FM7/ Y mal[+] <fbsym>FBal0071495==y[+]</fbsym>
|FBst1000228
|Df(1)DCB1-35b/ FM6/ <fbsym>FBal0071495==y[+]</fbsym> mal[+] Y
|FBst1000289
|C(1)RM, y/ Y[S] X.Y[L] In(1)EN, y; In(2L)Cy In(2R)Cy, Cy cn[2]; T(Y;2)G44, <fbsym>FBal0071495==y[+]</fbsym>
|FBst1000294
|y; Df(2R)B80, y[+]/ SM1
|FBst1000428
|y w/ <fbsym>FBal0071495==y[+]</fbsym> Y; Df(2R)P34/ CyO
|FBst1000429
|y w/ <fbsym>FBal0071495==y[+]</fbsym> Y; Df(2R)P29/ CyO
|FBst1001760
|y[+] Y[S] bb[+] In(1)FM7[L]EN[R], v[Of] Y[L] B[S]/C(1)M4, y[1] w[m4] bb/0
|FBst1001789
|l(1)dd4[S]/FM7/y[+] DpY
|FBst1001846
|y[1] w[1]; Sco[1]/CyO, <fbsym>FBal0071495==y[+]</fbsym>
|Total=255

REFDSR
{
RDID|FBrf0051634
|Geyer et al.
|1990
CC|Expression levels of <fbsym>FBgn0004034==y</fbsym> transcript were analyzed in potential <fbsym>FBgn0004034==y</fbsym>
| regulatory mutants.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0051634
|Geyer et al.
|1990
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070072	SYM 1 ac-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 465
ID|FBtr0070072
SYM|ac-RA
SYN|ac<up>+</up>R1.1
|CG3796-RA
ASAL|<fbsym>FBal0068541==ac<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ID2|FBtr0002231
|FBtr0002232
ARGS|FBgn0000022
ASGN|<fbsym>FBgn0000022==ac</fbsym>
SK|FBst0002562
|C(1;YL)1, bb[+] <fbsym>FBal0068541==ac[+]</fbsym> y[+]/C(1;YS)1, y[1] w[1] & C(1)DX, y[1] f[1]/0
|Total=1

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070073	SYM 1 sc-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 671
ID|FBtr0070073
SYM|sc-RA
ASAL|<fbsym>FBal0071015==sc<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0004170
ASGN|<fbsym>FBgn0004170==sc</fbsym>
SK|FBst0004917
|y[2] wy[1] l(1)dd4[2] car[1]/In(1)sc[S1], In(1)dl-49, sc[S1] v[1] f[1] B[1]/Dp(1;Y)*, y[2] <fbsym>FBal0071015==sc[+]</fbsym>
|Total=1

REFDSR
{
RDID|FBrf0054074
|Cubas et al.
|1991
CC|The pattern of <fbsym>FBgn0004170==sc</fbsym> transcript accumulation closely resembles the
| distribution of <fbsym>FBgn0004170==sc</fbsym> protein.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0054074
|Cubas et al.
|1991
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070075	SYM 1 ase-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070075
SYM|ase-RA
ASAL|<fbsym>FBal0068661==ase<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0000137
ASGN|<fbsym>FBgn0000137==ase</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070081	SYM 1 svr-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070081
SYM|svr-RB
SYN|CG4122-RB
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0070080==svr-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070082	SYM 1 svr-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070082
SYM|svr-RA
SYN|CG4122-RA
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0070081==svr-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070083	SYM 1 svr-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070083
SYM|svr-RC
SYN|CG4122-RC
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0070082==svr-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070084	SYM 1 svr-RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070084
SYM|svr-RD
SYN|CG4122-RD
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0089123==svr-PD</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070085	SYM 1 svr-RE	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070085
SYM|svr-RE
SYN|CG4122-RE
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0089124==svr-PE</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070086	SYM 1 svr-RF	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070086
SYM|svr-RF
SYN|CG4122-RF
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0089125==svr-PF</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070087	SYM 1 svr-RG	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070087
SYM|svr-RG
SYN|CG4122-RG
ASAL|<fbsym>FBal0071183==svr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0004648==svr</fbsym>
ASPP|<fbsym>FBpp0089126==svr-PG</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070088	SYM 1 arg-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 322
ID|FBtr0070088
SYM|arg-RA
SYN|CG18104-RA
ASAL|<fbsym>FBal0122346==arg<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0023535==arg</fbsym>
ASPP|<fbsym>FBpp0070083==arg-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070091	SYM 1 elav-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 325
ID|FBtr0070091
SYM|elav-RA
SYN|CG4262-RA
ASAL|<fbsym>FBal0068902==elav<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000570==elav</fbsym>
ASPP|<fbsym>FBpp0070086==elav-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070100	SYM 1 pcl-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 322
ID|FBtr0070100
SYM|pcl-RA
SYN|CG13374-RA
ASAL|<fbsym>FBal0070870==pcl<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0011822==pcl</fbsym>
ASPP|<fbsym>FBpp0070095==pcl-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070109	SYM 1 Appl-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 477
ID|FBtr0070109
SYM|Appl-RA
SYN|CG7727-RA
ASAL|<fbsym>FBal0066392==Appl<up>+</up></fbsym>
DT|5 Jun 2004
|22 Nov 1999
ID2|FBtr0005220
ARGS|FBgn0000108
ASGN|<fbsym>FBgn0000108==Appl</fbsym>
ASPP|<fbsym>FBpp0000104==Appl-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,4,5,6,7,8,9,10,11
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070110	SYM 1 vnd-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070110
SYM|vnd-RA
ASAL|<fbsym>FBal0071468==vnd<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0003986
ASGN|<fbsym>FBgn0003986==vnd</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070120	SYM 1 su(s)-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 291
ID|FBtr0070120
SYM|su(s)-RA
ASAL|<fbsym>FBal0071175==su(s)<up>+</up></fbsym>
DT|5 Jun 2004
|13 Sep 1999
ARGS|FBgn0003575
ASGN|<fbsym>FBgn0003575==su(s)</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070123	SYM 1 skpA-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 288
ID|FBtr0070123
SYM|skpA-RA
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|11 May 2000
ARGS|FBgn0025637
ASGN|<fbsym>FBgn0025637==skpA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070124	SYM 1 skpA-RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 271
ID|FBtr0070124
SYM|skpA-RD
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|30 Jan 2002
ASGN|<fbsym>FBgn0025637==skpA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070125	SYM 1 skpA-RG	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 326
ID|FBtr0070125
SYM|skpA-RG
SYN|CG16983-RG
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0025637==skpA</fbsym>
ASPP|<fbsym>FBpp0070120==skpA-PG</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070126	SYM 1 skpA-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 271
ID|FBtr0070126
SYM|skpA-RB
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|30 Jan 2002
ASGN|<fbsym>FBgn0025637==skpA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070127	SYM 1 skpA-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 271
ID|FBtr0070127
SYM|skpA-RC
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|30 Jan 2002
ASGN|<fbsym>FBgn0025637==skpA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070128	SYM 1 skpA-RF	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 326
ID|FBtr0070128
SYM|skpA-RF
SYN|CG16983-RF
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0025637==skpA</fbsym>
ASPP|<fbsym>FBpp0070123==skpA-PF</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070129	SYM 1 skpA-RE	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 326
ID|FBtr0070129
SYM|skpA-RE
SYN|CG16983-RE
ASAL|<fbsym>FBal0096148==skpA<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0025637==skpA</fbsym>
ASPP|<fbsym>FBpp0070124==skpA-PE</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070130	SYM 1 sdk-RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 284
ID|FBtr0070130
SYM|sdk-RD
ASAL|<fbsym>FBal0080613==sdk<up>+</up></fbsym>
DT|5 Jun 2004
|1 Oct 2001
ARGS|FBgn0021764
ASGN|<fbsym>FBgn0021764==sdk</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070131	SYM 1 sdk-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 729
ID|FBtr0070131
SYM|sdk-RC
ASAL|<fbsym>FBal0080613==sdk<up>+</up></fbsym>
DT|5 Jun 2004
|6 Jan 2000
ARGS|FBgn0021764
ASGN|<fbsym>FBgn0021764==sdk</fbsym>

REFDSR
{
RDID|FBrf0098319
|Nguyen et al.
|1997
CC|<fbsym>FBgn0021764==sdk</fbsym> cDNAs isolated differ in their first exon splice donor sites; 3
| different splice donor sites have been identified. One of the <fbsym>FBgn0021764==sdk</fbsym> cDNAs
| isolated retains a microexon not retained by the other cDNAs, resulting in
| a predicted protein 9 amino acids longer than that predicted for the others.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0098319
|Nguyen et al.
|1997
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070132	SYM 1 sdk-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 729
ID|FBtr0070132
SYM|sdk-RB
ASAL|<fbsym>FBal0080613==sdk<up>+</up></fbsym>
DT|5 Jun 2004
|6 Jan 2000
ARGS|FBgn0021764
ASGN|<fbsym>FBgn0021764==sdk</fbsym>

REFDSR
{
RDID|FBrf0098319
|Nguyen et al.
|1997
CC|<fbsym>FBgn0021764==sdk</fbsym> cDNAs isolated differ in their first exon splice donor sites; 3
| different splice donor sites have been identified. One of the <fbsym>FBgn0021764==sdk</fbsym> cDNAs
| isolated retains a microexon not retained by the other cDNAs, resulting in
| a predicted protein 9 amino acids longer than that predicted for the others.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0098319
|Nguyen et al.
|1997
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070133	SYM 1 sdk-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 729
ID|FBtr0070133
SYM|sdk-RA
ASAL|<fbsym>FBal0080613==sdk<up>+</up></fbsym>
DT|5 Jun 2004
|6 Jan 2000
ARGS|FBgn0021764
ASGN|<fbsym>FBgn0021764==sdk</fbsym>

REFDSR
{
RDID|FBrf0098319
|Nguyen et al.
|1997
CC|<fbsym>FBgn0021764==sdk</fbsym> cDNAs isolated differ in their first exon splice donor sites; 3
| different splice donor sites have been identified. One of the <fbsym>FBgn0021764==sdk</fbsym> cDNAs
| isolated retains a microexon not retained by the other cDNAs, resulting in
| a predicted protein 9 amino acids longer than that predicted for the others.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0098319
|Nguyen et al.
|1997
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070146	SYM 1 Rbf-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 325
ID|FBtr0070146
SYM|Rbf-RA
ASAL|<fbsym>FBal0075628==Rbf<up>+</up></fbsym>
DT|5 Jun 2004
|23 Feb 2000
ARGS|FBgn0015799
ASGN|<fbsym>FBgn0015799==Rbf</fbsym>
ASPP|<fbsym>FBpp0089888==Rbf-XP</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070152	SYM 1 Dredd-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Jun 2004	RESZ 577
ID|FBtr0070152
SYM|Dredd-RC
SYN|CG7486-RC
|dredd-beta
ASAL|<fbsym>FBal0079409==Dredd<up>+</up></fbsym>
DT|5 Jun 2004
|13 Sep 1999
ID2|FBtr0004978
ARGS|FBgn0020381
ASGN|<fbsym>FBgn0020381==Dredd</fbsym>
ASPP|<fbsym>FBpp0002719==Dredd-P3</fbsym>

REFDSR
{
RDID|FBrf0104738
|Chen et al.
|1998
RNAT|mRNA
CC|The &bgr; isoform transcript contains two putative open reading frames.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0104738
|Chen et al.
|1998
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070153	SYM 1 Dredd-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Jun 2004	RESZ 767
ID|FBtr0070153
SYM|Dredd-RB
SYN|CG7486-RB
|dredd-delta
ASAL|<fbsym>FBal0079409==Dredd<up>+</up></fbsym>
DT|5 Jun 2004
|13 Sep 1999
ID2|FBtr0004979
ARGS|FBgn0020381
ASGN|<fbsym>FBgn0020381==Dredd</fbsym>
ASPP|<fbsym>FBpp0002720==Dredd-P2</fbsym>

REFDSR
{
RDID|FBrf0104738
|Chen et al.
|1998
RNAT|mRNA
CC|The longest &dgr; transcript sequence is a composite of several cDNAs and
| encodes a 494 amino acid protein; a shorter complete transcript that would
| give rise to a 366 amino acid protein (the &agr; isoform) is likely a
| truncated &dgr; isoform transcript.
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0104738
|Chen et al.
|1998
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070154	SYM 1 Dredd-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Jun 2004	RESZ 503
ID|FBtr0070154
SYM|Dredd-RA
SYN|CG7486-RA
|dredd-gamma
ASAL|<fbsym>FBal0079409==Dredd<up>+</up></fbsym>
DT|5 Jun 2004
|13 Sep 1999
ID2|FBtr0004980
ARGS|FBgn0020381
ASGN|<fbsym>FBgn0020381==Dredd</fbsym>
ASPP|<fbsym>FBpp0002721==Dredd-P1</fbsym>

REFDSR
{
RDID|FBrf0104738
|Chen et al.
|1998
RNAT|mRNA
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0104738
|Chen et al.
|1998
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070176	SYM 1 su(w<up>a</up>)-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 209
ID|FBtr0070176
SYM|su(w<up>a</up>)-RA
SYN|CG3019-RA
DT|5 Jun 2004
|5 Jun 2004

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070177	SYM 1 su(w<up>a</up>)-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 209
ID|FBtr0070177
SYM|su(w<up>a</up>)-RB
SYN|CG3019-RB
DT|5 Jun 2004
|5 Jun 2004

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070178	SYM 1 su(w<up>a</up>)-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 209
ID|FBtr0070178
SYM|su(w<up>a</up>)-RC
SYN|CG3019-RC
DT|5 Jun 2004
|5 Jun 2004

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070228	SYM 1 futsch-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 333
ID|FBtr0070228
SYM|futsch-RB
SYN|CG3064-RB
ASAL|<fbsym>FBal0075295==futsch<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0015390==futsch</fbsym>
ASPP|<fbsym>FBpp0070219==futsch-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070234	SYM 1 png-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070234
SYM|png-RA
ASAL|<fbsym>FBal0070900==png<up>+</up></fbsym>
DT|5 Jun 2004
|20 Apr 2001
ARGS|FBgn0000826
ASGN|<fbsym>FBgn0000826==png</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070239	SYM 1 DAAM-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Dec 2005	RESZ 291
ID|FBtr0070239
SYM|DAAM-RB
SYN|CG14622-RB
ASAL|<fbsym>FBal0188406==DAAM<up>+</up></fbsym>
DT|7 Dec 2005
|5 Jun 2004
ASPP|<fbsym>FBpp0070229==CG14622-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070240	SYM 1 DAAM-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Dec 2005	RESZ 291
ID|FBtr0070240
SYM|DAAM-RC
SYN|CG14622-RC
ASAL|<fbsym>FBal0188406==DAAM<up>+</up></fbsym>
DT|7 Dec 2005
|5 Jun 2004
ASPP|<fbsym>FBpp0070230==CG14622-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070241	SYM 1 DAAM-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 7 Dec 2005	RESZ 291
ID|FBtr0070241
SYM|DAAM-RA
SYN|CG14622-RA
ASAL|<fbsym>FBal0188406==DAAM<up>+</up></fbsym>
DT|7 Dec 2005
|5 Jun 2004
ASPP|<fbsym>FBpp0070231==CG14622-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070255	SYM 1 pck-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 283
ID|FBtr0070255
SYM|pck-RA
SYN|CG14779-RA
ASAL|<fbsym>FBal0070869==pck<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0013720==pck</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070256	SYM 1 pck-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 283
ID|FBtr0070256
SYM|pck-RC
SYN|CG14779-RC
ASAL|<fbsym>FBal0070869==pck<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0013720==pck</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070261	SYM 1 br-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070261
SYM|br-RC
SYN|CG11491-RC
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070251==br-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070262	SYM 1 br-RE	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070262
SYM|br-RE
SYN|CG11491-RE
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070252==br-PE</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070263	SYM 1 br-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070263
SYM|br-RB
SYN|CG11491-RB
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070253==br-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070264	SYM 1 br-RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070264
SYM|br-RD
SYN|CG11491-RD
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070254==br-PD</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070265	SYM 1 br-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070265
SYM|br-RA
SYN|CG11491-RA
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070255==br-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070266	SYM 1 br-RG	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070266
SYM|br-RG
SYN|CG11491-RG
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070256==br-PG</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070267	SYM 1 br-RF	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 318
ID|FBtr0070267
SYM|br-RF
SYN|CG11491-RF
ASAL|<fbsym>FBal0068707==br<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000210==br</fbsym>
ASPP|<fbsym>FBpp0070257==br-PF</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070269	SYM 1 dor-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070269
SYM|dor-RA
ASAL|<fbsym>FBal0068840==dor<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0000482
ASGN|<fbsym>FBgn0000482==dor</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070270	SYM 1 hfw-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 282
ID|FBtr0070270
SYM|hfw-RA
SYN|CG3095-RA
ASAL|<fbsym>FBal0069246==hfw<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0001189==hfw</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070277	SYM 1 Scg&dgr;-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 343
ID|FBtr0070277
SYM|Scg&dgr;-RA
SYN|CG14808-RA
ASAL|<fbsym>FBal0118643==Scg&dgr;<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0025391==Scg&dgr;</fbsym>
ASPP|<fbsym>FBpp0070267==Scg&dgr;-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070289	SYM 1 sta-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070289
SYM|sta-RA
ASAL|<fbsym>FBal0071152==sta<up>+</up></fbsym>
DT|5 Jun 2004
|23 Feb 2000
ARGS|FBgn0003517
ASGN|<fbsym>FBgn0003517==sta</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070290	SYM 1 sta-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 322
ID|FBtr0070290
SYM|sta-RB
SYN|CG14792-RB
ASAL|<fbsym>FBal0071152==sta<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003517==sta</fbsym>
ASPP|<fbsym>FBpp0070278==sta-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070291	SYM 1 sta-RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 322
ID|FBtr0070291
SYM|sta-RD
SYN|CG14792-RD
ASAL|<fbsym>FBal0071152==sta<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003517==sta</fbsym>
ASPP|<fbsym>FBpp0070279==sta-PD</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070299	SYM 1 Adar-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 326
ID|FBtr0070299
SYM|Adar-RA
SYN|CG12598-RA
ASAL|<fbsym>FBal0095036==Adar<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0026086==Adar</fbsym>
ASPP|<fbsym>FBpp0070286==Adar-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070300	SYM 1 Adar-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 326
ID|FBtr0070300
SYM|Adar-RB
SYN|CG12598-RB
ASAL|<fbsym>FBal0095036==Adar<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0026086==Adar</fbsym>
ASPP|<fbsym>FBpp0070287==Adar-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070326	SYM 1 east-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 325
ID|FBtr0070326
SYM|east-RB
SYN|CG4399-RB
ASAL|<fbsym>FBal0068888==east<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0010110==east</fbsym>
ASPP|<fbsym>FBpp0070312==east-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070343	SYM 1 Actn-RB	TRL 1 1.9	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Jun 2004	RESZ 925
ID|FBtr0070343
SYM|Actn-RB
SYN|Actn<up>+</up>RB
|CG4376-RB
ASAL|<fbsym>FBal0066355==Actn<up>+</up></fbsym>
DT|5 Jun 2004
|22 Nov 1999
ID2|FBtr0005208
|FBtr0005218
ARGS|FBgn0000667
ASGN|<fbsym>FBgn0000667==Actn</fbsym>
ASPP|<fbsym>FBpp0002844==Actn-P2</fbsym>
|<fbsym>FBpp0002849==Actn-P12</fbsym>

REFDSR
{
RDID|FBrf0056452
|Roulier et al.
|1992
RNAT|mRNA
TRL|1.9 (northern blot)
EXNSQ|2-6,9-13
BODP|The 1.9kb <fbsym>FBgn0000667==Actn</fbsym> transcripts are found in mid late embryos and mid-late
| pupae, stages at which muscles are present.
ASM|northern blot
CVBODP|northern blot
|<t> E | mid-late <a>  <p>
|<t> P | mid-late <a>  <p>
}

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|3,4,5,6,9,10,11,12,13
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0056452
|Roulier et al.
|1992
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070344	SYM 1 Actn-RA	TRL 1 3.4	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Jun 2004	RESZ 892
ID|FBtr0070344
SYM|Actn-RA
SYN|Actn<up>+</up>RA
|CG4376-RA
ASAL|<fbsym>FBal0066355==Actn<up>+</up></fbsym>
DT|5 Jun 2004
|22 Nov 1999
ID2|FBtr0005207
|FBtr0005217
ARGS|FBgn0000667
ASGN|<fbsym>FBgn0000667==Actn</fbsym>
ASPP|<fbsym>FBpp0002843==Actn-P1</fbsym>

REFDSR
{
RDID|FBrf0056452
|Roulier et al.
|1992
RNAT|mRNA
TRL|3.4 (northern blot)
EXNSQ|2-5,8-13
BODP|The 3.4kb <fbsym>FBgn0000667==Actn</fbsym> transcripts are found at all stages of development tested
| including early embryos and early pupae, times at which no muscles are present.
ASM|northern blot
CVBODP|northern blot
|<t> E-A <a>  <p>
}

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,3,4,5,8,9,10,11,12,13
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0056452
|Roulier et al.
|1992
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070345	SYM 1 Actn-RC	TRL 1 1.9	ASM 1 northern blot	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 3	DT 1 5 Jun 2004	RESZ 889
ID|FBtr0070345
SYM|Actn-RC
SYN|Actn<up>+</up>RC
|CG4376-RC
ASAL|<fbsym>FBal0066355==Actn<up>+</up></fbsym>
DT|5 Jun 2004
|22 Nov 1999
ID2|FBtr0005209
|FBtr0005219
ARGS|FBgn0000667
ASGN|<fbsym>FBgn0000667==Actn</fbsym>
ASPP|<fbsym>FBpp0002845==Actn-P3</fbsym>

REFDSR
{
RDID|FBrf0056452
|Roulier et al.
|1992
RNAT|mRNA
TRL|1.9 (northern blot)
EXNSQ|2-5,7,9-13
BODP|The 1.9kb <fbsym>FBgn0000667==Actn</fbsym> transcripts are found in mid late embryos and mid-late
| pupae, stages at which muscles are present.
ASM|northern blot
CVBODP|northern blot
|<t> E | mid-late <a>  <p>
|<t> P | mid-late <a>  <p>
}

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|3,4,5,7,9,10,11,12,13
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0056452
|Roulier et al.
|1992
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070346	SYM 1 usp-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070346
SYM|usp-RA
ASAL|<fbsym>FBal0071454==usp<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0003964
ASGN|<fbsym>FBgn0003964==usp</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070362	SYM 1 trr-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070362
SYM|trr-RC
SYN|CG3848-RC
ASAL|<fbsym>FBal0097519==trr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0023518==trr</fbsym>
ASPP|<fbsym>FBpp0070346==trr-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070363	SYM 1 trr-RD	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070363
SYM|trr-RD
SYN|CG3848-RD
ASAL|<fbsym>FBal0097519==trr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0023518==trr</fbsym>
ASPP|<fbsym>FBpp0070347==trr-PD</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070371	SYM 1 &dgr;COP-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 26 Aug 2004	RESZ 343
ID|FBtr0070371
SYM|&dgr;COP-RA
SYN|CG14813-RA
ASAL|<fbsym>FBal0102315==&dgr;COP<up>+</up></fbsym>
DT|26 Aug 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0028969==&dgr;COP</fbsym>
ASPP|<fbsym>FBpp0070355==&dgr;COP-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070378	SYM 1 csw-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 474
ID|FBtr0070378
SYM|csw-RA
SYN|CG3954-RA
ASAL|<fbsym>FBal0068791==csw<up>+</up></fbsym>
DT|5 Jun 2004
|23 Feb 2000
ID2|FBtr0005595
ARGS|FBgn0000382
ASGN|<fbsym>FBgn0000382==csw</fbsym>
ASPP|<fbsym>FBpp0002945==csw-P1</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|1,2,3,5,6,7,8,9,10,11,13
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070379	SYM 1 csw-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 2	DT 1 5 Jun 2004	RESZ 467
ID|FBtr0070379
SYM|csw-RB
SYN|CG3954-RB
ASAL|<fbsym>FBal0068791==csw<up>+</up></fbsym>
DT|5 Jun 2004
|23 Feb 2000
ID2|FBtr0005596
ARGS|FBgn0000382
ASGN|<fbsym>FBgn0000382==csw</fbsym>
ASPP|<fbsym>FBpp0002946==csw-P2</fbsym>

REFDSR
{
RDID|FBrf0104946
|FlyBase
|1996-
RNAT|mRNA
EXNSQ|4,5,6,7,8,9,10,12
}

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0104946
|FlyBase
|1996-
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070380	SYM 1 csw-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070380
SYM|csw-RC
SYN|CG3954-RC
ASAL|<fbsym>FBal0068791==csw<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0000382==csw</fbsym>
ASPP|<fbsym>FBpp0070364==csw-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070384	SYM 1 Pgd-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 285
ID|FBtr0070384
SYM|Pgd-RA
ASAL|<fbsym>FBal0068169==Pgd<up>+</up></fbsym>
DT|5 Jun 2004
|16 Sep 1998
ARGS|FBgn0004654
ASGN|<fbsym>FBgn0004654==Pgd</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070389	SYM 1 pn-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 -	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 282
ID|FBtr0070389
SYM|pn-RA
ASAL|<fbsym>FBal0070899==pn<up>+</up></fbsym>
DT|5 Jun 2004
|10 Mar 1998
ARGS|FBgn0003116
ASGN|<fbsym>FBgn0003116==pn</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070395	SYM 1 pcx-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070395
SYM|pcx-RB
SYN|CG3443-RB
ASAL|<fbsym>FBal0070872==pcx<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003048==pcx</fbsym>
ASPP|<fbsym>FBpp0070379==pcx-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070401	SYM 1 phl-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070401
SYM|phl-RA
SYN|CG2845-RA
ASAL|<fbsym>FBal0070881==phl<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003079==phl</fbsym>
ASPP|<fbsym>FBpp0070385==phl-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070402	SYM 1 ptr-RB	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070402
SYM|ptr-RB
SYN|CG2841-RB
ASAL|<fbsym>FBal0070927==ptr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003159==ptr</fbsym>
ASPP|<fbsym>FBpp0070386==ptr-PB</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070403	SYM 1 ptr-RC	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070403
SYM|ptr-RC
SYN|CG2841-RC
ASAL|<fbsym>FBal0070927==ptr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003159==ptr</fbsym>
ASPP|<fbsym>FBpp0070387==ptr-PC</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

REF
{
REFM|FBrf0166453
|FlyBase Genome Annotators
|2004
}

}

# EOR

TRR
{

RETE|ID 1 FBtr0070404	SYM 1 ptr-RA	TRL 1 -	ASM 1 -	CDNA 1 -	ASPP 1 +	DBA 1 -	REF 1 1	DT 1 5 Jun 2004	RESZ 321
ID|FBtr0070404
SYM|ptr-RA
SYN|CG2841-RA
ASAL|<fbsym>FBal0070927==ptr<up>+</up></fbsym>
DT|5 Jun 2004
|5 Jun 2004
ASGN|<fbsym>FBgn0003159==ptr</fbsym>
ASPP|<fbsym>FBpp0070388==ptr-PA</fbsym>

REFDSR
{
RDID|FBrf0166453
|FlyBase Genome Annotators
|2004
RNAT|mRNA
}

RE