Gene Scer\GAL80

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General Information

Symbol

Scer\GAL80

Species

S. cerevisiae

Name

Annotation symbol

Feature type

engineered_foreign_gene

FlyBase ID

FBgn0026367

Created / Updated

2006-08-22/2006-08-22

Genomic Location

Chromosome (arm)

Recombination map

Cytogenetic map

Sequence location

Summary Information

Automatically generated summary

See sections below for more information

This gene is referred to in FlyBase by the symbol Scer\GAL80 (FBgn0026367). It has not been localized to the genome sequence. Its molecular function is unknown. The biological processes in which it is involved are not known. 11 alleles are reported. The phenotypes of these alleles are annotated with: wing hair; adult midgut; male genitalia. It has no annotated transcripts.

Detailed Mapping Data

FlyBase Computed Cytological Location

Cytogenetic map

Evidence for location

Experimentally Determined Cytological Location

Cytogenetic map

Notes

References

Experimentally Determined Recombination Data

Location

Left of (cM)

Right of (cM)

Notes

Molecular Map Data

Gene Order (in direction of increasing cytology)

References

Gene Order (overall orientation not stated)

References

Gene Model & Products

Comments on Gene Model

Transcript Data

Annotated Transcripts

Name

FlyBase ID

RefSeq ID

Length (nt)

Associated CDS (aa)

Additional Transcript Data & Comments

Reported size (kB)

Comments

External Data

Crossreferences

Polypeptide Data

Annotated Polypeptides

Name

FlyBase ID

Predicted MW (kD)

Length (aa)

Theoretical pI

RefSeq ID

GenBank protein

Additional Polypeptide Data & Comments

Reported size (kD)

Comments

External Data

Linkouts

Crossreferences

Sequences Consistent with the Gene Model

DDBJ /
EMBL /
GenBank

DNA sequence

Protein sequence

Name

UniProtKB/Swiss-Prot

UniProtKB/TrEMBL

Maps to

Does NOT map to

Identified with

Mapped Features & Mutations

Type

Symbol & Location

Additional Notes

References

External Data

Linkouts

Crossreferences

Expression Data

FlyBase-Curated Data

Transcript and
Protein data

Please see the FlyBase Gene Expression Report for details of gene expression from the literature.

Summary of Transcript Expression

Stage

Tissue/Position

Reference

Marker for

Subcellular Localization

CV Term

Summary of Polypeptide Expression

Stage

Tissue/Position

Reference

Marker for

Subcellular Localization

CV Term

External Data & Images

Linkouts

Alleles & Phenotypes

Summary of Allele Phenotypes

Lethality

Allele

viable

Scer\GAL80^αTub84B.PL

viable, with Scer\GAL4^sal.BO, rpr^Scer\UAS.C

Scer\GAL80^svp.3kb

lethal | larval stage, with Hsap\KCNJ2^{Scer\UAS.T:Avic\GFP-EGFP}, Scer\GAL4^dimm-929

Scer\GAL80^Ccap.PL

lethal | pupal stage, with Scer\GAL4^sal.BO, rpr^Scer\UAS.C

Scer\GAL80^ts.αTub84B

Other Phenotypes

Allele

behavior defective, with Scer\GAL4^tim.PE, sgg^EP1576

Scer\GAL80^Pdf.PS

circadian rhythm defective, with Scer\GAL4^tim.PE, sgg^EP1576

Scer\GAL80^Pdf.PS

locomotor rhythm defective, with Scer\GAL4^elav-C155, per⁰¹, per^Scer\UAS.cYa

Scer\GAL80^cry.PS

locomotor rhythm defective, with Scer\GAL4^tim.PE, tim^Scer\UAS.cYa

Scer\GAL80^Pdf.PS

locomotor rhythm defective, with Scer\GAL4^tim.PE, per^Scer\UAS.cYa

Scer\GAL80^Pdf.PS

locomotor rhythm defective, with Scer\GAL4^tim.PE, sgg^EP1576

Scer\GAL80^Pdf.PS

locomotor rhythm defective, with Scer\GAL4^tim.PE, per^Scer\UAS.cKa

Scer\GAL80^Pdf.PS

locomotor rhythm defective, with Scer\GAL4^cry.PE, W^Scer\UAS.cZa

Scer\GAL80^Pdf.PS

memory defective | conditional - heat sensitive, with Ctet\TeTxLC^TNT.Scer\UAS, Scer\GAL4^c205

Scer\GAL80^ts.αTub84B

cell death increase | conditional - heat sensitive, with Scer\GAL4^en-e16E, hep^CA

Scer\GAL80^ts.αTub84B

tissue polarity defective | conditional - cold sensitive, with Scer\GAL4^salm-459.2, ds^Scer\UAS.cTa

Scer\GAL80^ts.αTub84B

Sterility

Allele

fertile

Scer\GAL80^αTub84B.PL

Phenotype manifest in

Allele

wing hair | conditional - cold sensitive, with Scer\GAL4^salm-459.2, ds^Scer\UAS.cTa

Scer\GAL80^ts.αTub84B

adult midgut | conditional - heat sensitive, with N^{int.G.Scer\UAS}, Scer\GAL4^esg-NP5130

Scer\GAL80^ts.αTub84B

adult midgut | conditional - heat sensitive, with N^{dsRNA.P.Scer\UAS}, Scer\GAL4^esg-NP5130

Scer\GAL80^ts.αTub84B

male genitalia | conditional - heat sensitive, with Myo31DF^Sym.Scer\UAS, Myo31DF^{a.Sym.Scer\UAS}, Scer\GAL4^tsh-md621

Scer\GAL80^ts.αTub84B

Classical Alleles ( 0 )

For All Classical Alleles Show

Allele of Scer\GAL80	Class	Mutagen	Stocks	Known lesion

Alleles Carried on Transgenic Constructs ( 11 )

For All Alleles Carried on Transgenic Constructs Show

Allele of Scer\GAL80	Mutagen	Stocks	Known lesion
Scer\GAL80^Ccap.PL	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^Cha.PK	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^Eh.2.4	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^Pdf.PS	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^cry.PS	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^eve.RRK	in vitro construct \| regulatory fusion	0	--
Scer\GAL80^ey.hs.PC	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^svp.3kb	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^ts.αTub84B	in vitro construct \| regulatory fusion in vitro construct \| other	5	Yes
Scer\GAL80^αTub84B.PC	in vitro construct \| regulatory fusion	0	Yes
Scer\GAL80^αTub84B.PL	in vitro construct \| regulatory fusion	13	Yes

Aneuploid Aberrations

Transgenic Constructs & Insertions

Transgenic Constructs

Type of construct

Name

Expression data

Insertions

Type of insertions

Name

Expression data

Related Comments

Please look at the allele reports for the complete phenotype data

Gene Ontology: Function, Process & Cellular Component ( 0 )

Molecular Function

CV term

Evidence

References

Biological Process

CV term

Evidence

References

Cellular Component

CV term

Evidence

References

Sequence Ontology: Class of Gene

engineered_foreign_gene

Interactions & Pathways

Summary of Genetic Interactions

Interacts with

Please look at the allele data for full details of the genetic interactions

Scer\GAL80 allele

Gene

References

External Data

Linkouts

Orthologs

Genome-wide drosophilid orthologs

Curated drosophilid orthologs

Linkouts

Functional Complementation between Species

Inter-Species Misexpression Data

Produces phenotype in

Produces NO phenotype in

Stocks & Reagents

Stocks Listed in FlyBase ( 18 )

Bloomington

7017

w^*; P{tubP-GAL80^ts}2/TM2

7016

P{tubP-GAL80^ts}9, w^*/FM7c

5140

w^*; P{FRT(w^hs)}G13 P{tubP-GAL80}LL2

5132

P{neoFRT}19A, P{tubP-GAL80}LL1, P{hsFLP}1, w^*

5135

y¹ w^*; P{neoFRT}82B P{tubP-GAL80}LL3

5191

y¹ w^*; P{tubP-GAL80}LL9 P{neoFRT}80B

5192

y¹ w^*; P{tubP-GAL80}LL10 P{neoFRT}40A/CyO

7018

w^*; noc^Sco/CyO; P{tubP-GAL80^ts}7

7019

w^*; P{tubP-GAL80^ts}20; TM2/TM6B, Tb¹

7108

w^*; P{tubP-GAL80^ts}10; TM2/TM6B, Tb¹

5142

w^*; P{FRT(w^hs)}G13, P{πM}45F, P{tubP-GAL80}LL2/CyO

9917

y¹ w^*; P{neoFRT}42D P{tubP-GAL80}LL2/CyO, y⁺

More stocks available...

Genomic Clones ( 0 )

cDNA Clones ( 0 )

cDNA Clones, Fully Sequenced

BDGP DGC clones

Other clones

cDNA Clones, End Sequenced (ESTs)

BDGP DGC clones

Other clones

RNAi & Array Information

Affy Oligo

Linkouts

Antibody Information

Other Information

Discoverer

Etymology

Identification

Position Effect Variegation Data

Relationship to Other Genes

Source for database identity of

Source for database merge of

Additional comments

Comments About Role

Comments About Molecular Function

Scer\GAL80 antagonizes the activity of Scer\GAL4 in developing and adult flies.

(Lee and Luo, 1999)

Other Comments

Used a repressor in the MARCM (Mosaic Analysis with a Repressible Cell Marker) system.

(Lee and Luo, 1999)

Foreign Gene Data

Foreign sequence; species == Saccharomyces cerevisiae; gene == gal80; SGDID:S0004515.

External Crossreferences & Linkouts

Sequence Crossreferences

Other Crossreferences

Linkouts

Synonyms & Secondary IDs ( 5 )

Reported As

Symbol Synonym

G80

(Wang and Struhl, 2004)

GAL80

(Lei et al., 2003, Luan et al., 2006, Dutta et al., 2005, Ward et al., 2006, Vef et al., 2006, Long et al., 2006, McDonald et al., 2006, Poulton and Deng, 2006, Ryoo et al., 2004, Gutierrez et al., 2007, Zhu et al., 2006, Stoleru et al., 2007, Zhu et al., 2005, Assa-Kunik et al., 2007)

Gal80

(Benton et al., 2006, Lawrence et al., 2004, Chotard et al., 2005, Baena-Lopez and Garcia-Bellido, 2006, Speder et al., 2006, Komiyama, 2007, Bazigou et al., 2007, Sato and Tomlinson, 2007, Berdnik et al., 2006, Komiyama et al., 2004, Sweeney et al., 2006, Bazigoui et al., 2007, Luan et al., 2006, Liu et al., 2007, Luan et al., 2006, Sasaki et al., 2007, Fischler et al., 2007)

gal80

(de Navas et al., 2006)

Scer\GAL80

(Casal et al., 2006)

Name Synonym

Secondary FlyBase IDs

References ( 101 )

Generate a list of

All references relating to this gene ( 101 )

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Recent research papers ( 27 )

Assa-Kunik et al., 2007, Development 134(6): 1161--1169: Drosophila follicle cells are patterned by multiple levels of Notch signaling and antagonism between the Notch and JAK/STAT pathways. [FBrf0195377]
Bazigou et al., 2007, Cell 128(5): 961--975: Anterograde jelly belly and Alk receptor tyrosine kinase signaling mediates retinal axon targeting in Drosophila. [FBrf0192674]
Fischler et al., 2007, Nature 448(7157): 1054--1057: The detection of carbonation by the Drosophila gustatory system. [FBrf0200608]
Gutierrez et al., 2007, Nature 445(7125): 275--280: Specialized hepatocyte-like cells regulate Drosophila lipid metabolism. [FBrf0192579]
Komiyama, 2007, Cell 128(2): 399--410: Graded expression of Semaphorin-1a cell-autonomously directs dendritic targeting of olfactory projection neurons. [FBrf0199080]
Lim et al., 2007, Curr. Biol. 17(12): 1082--1089: Clockwork orange encodes a transcriptional repressor important for circadian-clock amplitude in Drosophila. [FBrf0202276]
Liu et al., 2007, Genetics 175(3): 1197--1212: Exploratory activity in Drosophila requires the kurtz nonvisual arrestin. [FBrf0200160]
Sasaki et al., 2007, Genes to Cells 12(1): 89--103: Polarized exocytosis and transcytosis of Notch during its apical localization in Drosophila epithelial cells. [FBrf0192755]
Sato and Tomlinson, 2007, Development 134(4): 659--667: Dorsal-ventral midline signaling in the developing Drosophila eye. [FBrf0195057]
Stoleru et al., 2007, Cell 129(1): 207--219: The Drosophila circadian network is a seasonal timer. [FBrf0202062]
Baena-Lopez and Garcia-Bellido, 2006, Proc. Natl. Acad. Sci. USA 103(37): 13734--13739: Control of growth and positional information by the graded vestigial expression pattern in the wing of Drosophila melanogaster. [FBrf0193315]
Benton et al., 2006, PLoS Biol. 4(2): e20: Atypical membrane topology and heteromeric function of Drosophila odorant receptors in vivo. [FBrf0192657]
Berdnik et al., 2006, J. Neurosci. 26(13): 3367--3376: Wiring stability of the adult Drosophila olfactory circuit after lesion. [FBrf0191041]
Casal et al., 2006, Development 133(22): 4561--4572: Two separate molecular systems, Dachsous/Fat and Starry night/Frizzled, act independently to confer planar cell polarity. [FBrf0194266]
de Navas et al., 2006, Development 133(22): 4495--4506: The Ultrabithorax Hox gene of Drosophila controls haltere size by regulating the Dpp pathway. [FBrf0194425]
Inoshita and Tanimura, 2006, Proc. Natl. Acad. Sci. USA 103(4): 1094--1099: Cellular identification of water gustatory receptor neurons and their central projection pattern in Drosophila. [FBrf0191468]
Liu et al., 2006, Nature 439(7076): 551--556: Distinct memory traces for two visual features in the Drosophila brain. [FBrf0191247]
Long et al., 2006, Genetics 172(3): 1633--1642: De novo GMP synthesis is required for axon guidance in Drosophila. [FBrf0190740]
Luan et al., 2006, Neuron 52(3): 425--436: Refined spatial manipulation of neuronal function by combinatorial restriction of transgene expression. [FBrf0193617]
Luan et al., 2006, J. Neurosci. 26(2): 573--584: Functional dissection of a neuronal network required for cuticle tanning and wing expansion in Drosophila. [FBrf0191050]
McDonald et al., 2006, Dev. Biol. 296(1): 94--103: Multiple EGFR ligands participate in guiding migrating border cells. [FBrf0193922]
Micchelli and Perrimon, 2006, Nature 439(7075): 475--479: Evidence that stem cells reside in the adult Drosophila midgut epithelium. [FBrf0191249]
Poulton and Deng, 2006, Proc. Natl. Acad. Sci. USA 103(34): 12775--12780: Dystroglycan down-regulation links EGF receptor signaling and anterior-posterior polarity formation in the Drosophila oocyte. [FBrf0193906]
Speder et al., 2006, Nature 440(7085): 803--807: Type ID unconventional myosin controls left-right asymmetry in Drosophila. [FBrf0191256]
Vef et al., 2006, Dev. Genes Evol. 216(2): 105--108: A new strategy for efficient in vivo screening of mutagenized Drosophila embryos. [FBrf0190260]
Ward et al., 2006, Curr. Biol. 16(23): 2352--2358: Stem cells signal to the niche through the Notch pathway in the Drosophila ovary. [FBrf0194773]
Zhu et al., 2006, Cell 127(2): 409--422: Gradients of the Drosophila Chinmo BTB-zinc finger protein govern neuronal temporal identity. [FBrf0194848]

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Recent reviews (0)

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