A Database of Drosophila Genes & Genomes

FB2013_03, released May 7th, 2013
 

Allele Scer\GAL4kirre-rP298

General Information
SymbolScer\GAL4kirre-rP298SpeciesS. cerevisiae
NameFlyBase IDFBal0147459
Feature typealleleAssociated geneScer\GAL4
Allele class
Mutagengene conversion
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Description
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FB2013_03
FB2013_02
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hide Nature of the Allele
Allele class
Mutagen
gene conversion
(Menon and Chia, 2001)
Mutations Mapped to the Genome
Type
Location
Additional Notes
References
Associated Sequence Data
DDBJ /
EMBL /
GenBank
DNA sequence
Protein sequence
Name
 
UniProtKB/Swiss-Prot
UniProtKB/TrEMBL
Progenitor genotype
P{PZ}rP298
(Menon and Chia, 2001)
Nature of the lesion
Statement
Reference
Generated from P{PZ}rP298 by gene conversion.
(Menon and Chia, 2001)
Caused by insertion
P{GAL4}rP298
(Menon and Chia, 2001, Chen et al., 2003, Menon et al., 2005, Bazigou et al., 2007, Bazigou et al., 2007, Kim et al., 2007, Dubois et al., 2007, Balagopalan et al., 2006, Rotkopf et al., 2011, Enriquez et al., 2010, Sens et al., 2010, Bahri et al., 2009, Schafer et al., 2007, Bulchand et al., 2010, Jin et al., 2011, Nguyen et al., 2007, Dottermusch-Heidel et al., 2012, Haralalka et al., 2011, Susic-Jung et al., 2012, Duan et al., 2012)
Cytology
hide Phenotypic Data
hide Phenotypic Class
hide Phenotype Manifest In
embryonic myoblast, with Arf51FT27N.Scer\UAS
(Chen et al., 2003)
mesothoracic dorsal acute muscle 3, with UbxIa.Scer\UAS
(Enriquez et al., 2010)
metathoracic dorsal acute muscle 3, with UbxIa.Scer\UAS
(Enriquez et al., 2010)
hide Detailed Description
Statement
Reference
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Linkouts
hide Interactions
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hideNOT Suppressor of
Statement
Reference
Scer\GAL4kirre-rP298/mib1Scer\UAS.cWa is a non-suppressor of embryonic/larval somatic muscle | embryonic stage 16 phenotype of mib21
(Nguyen et al., 2007)
Scer\GAL4kirre-rP298/neurScer\UAS.cPa is a non-suppressor of embryonic/larval somatic muscle | embryonic stage 16 phenotype of mib21
(Nguyen et al., 2007)
Scer\GAL4kirre-rP298/Rac1V12.Scer\UAS is a non-suppressor of embryonic myoblast phenotype of mbcD11.2
(Haralalka et al., 2011)
hide Additional Comments
hide Genetic Interactions
Statement
Reference
hide Xenogenetic Interactions
Statement
Reference
hide Complementation & Rescue Data
Rescues
rols7.Scer\UAS/Scer\GAL4kirre-rP298 rescues Df(3L)BK9
(Menon and Chia, 2001)
rols7.Scer\UAS/Scer\GAL4kirre-rP298 rescues rols1728-20L
(Haralalka et al., 2011)
Scer\GAL4kirre-rP298/mib2Scer\UAS.cNa rescues mib21
(Nguyen et al., 2007)
Partially rescues
Scer\GAL4kirre-rP298/mib2ΔRF.Scer\UAS partially rescues mib21
(Nguyen et al., 2007)
Scer\GAL4kirre-rP298/sizScer\UAS.T:Ivir\HA1 partially rescues sizC1-28
(Dottermusch-Heidel et al., 2012)
Fails to rescue
blowScer\UAS.cJa/Scer\GAL4kirre-rP298 fails to rescue blow1
(Jin et al., 2011)
mbcScer\UAS.T:Ivir\HA1/Scer\GAL4kirre-rP298 fails to rescue mbcD11.2
(Balagopalan et al., 2006, Haralalka et al., 2011)
Pak3Scer\UAS.T:SV5\V5/Scer\GAL4kirre-rP298 fails to rescue Pak3del
(Duan et al., 2012)
Scer\GAL4kirre-rP298/WASpScer\UAS.cBa fails to rescue Df(3R)3450/WASp3D3-035
(Schafer et al., 2007)
Comments
hide Stocks ( 0 )
hide Notes on Origin
Discoverer
hide Comments
Expression pattern confirmed as similar to original enhancer trap (P{PZ}rP298).
(Menon and Chia, 2001)
hide External Crossreferences & Linkouts
Other Crossreferences
Linkouts
hide Synonyms & Secondary IDs ( 1 )
Reported As
Symbol Synonym
Scer\GAL4kirre-rP298
 
Name Synonym
Secondary FlyBase IDs
hide References ( 20 )
Research paper
Dottermusch-Heidel et al., 2012, Dev. Biol. 368(1): 18--27
The Arf-GEF Schizo/Loner regulates N-cadherin to induce fusion competence of Drosophila myoblasts. [FBrf0218661]
Duan et al., 2012, J. Cell Biol. 199(1): 169--185
Group I PAKs function downstream of Rac to promote podosome invasion during myoblast fusion in vivo. [FBrf0219579]
Susic-Jung et al., 2012, Dev. Biol. 370(1): 86--97
Multinucleated smooth muscles and mononucleated as well as multinucleated striated muscles develop during establishment of the male reproductive organs of Drosophila melanogaster. [FBrf0219326]
Haralalka et al., 2011, Development 138(8): 1551--1562
Asymmetric Mbc, active Rac1 and F-actin foci in the fusion-competent myoblasts during myoblast fusion in Drosophila. [FBrf0213340]
Jin et al., 2011, Dev. Cell 20(5): 623--638
Competition between Blown Fuse and WASP for WIP Binding Regulates the Dynamics of WASP-Dependent Actin Polymerization In Vivo. [FBrf0213682]
Rotkopf et al., 2011, Development 138(13): 2729--2739
The WASp-based actin polymerization machinery is required in somatic support cells for spermatid maturation and release. [FBrf0213892]
Bulchand et al., 2010, J. Cell Sci. 123(16): 2697--2707
Muscle wasted: a novel component of the Drosophila histone locus body required for muscle integrity. [FBrf0211459]
Enriquez et al., 2010, Development 137(3): 457--466
Multi-step control of muscle diversity by Hox proteins in the Drosophila embryo. [FBrf0209729]
Sens et al., 2010, J. Cell Biol. 191(5): 1013--1027
An invasive podosome-like structure promotes fusion pore formation during myoblast fusion. [FBrf0212349]
Bahri et al., 2009, Dev. Biol. 325(1): 15--23
The Drosophila homologue of Arf-GAP GIT1, dGIT, is required for proper muscle morphogenesis and guidance during embryogenesis . [FBrf0207889]
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]
Dubois et al., 2007, Development 134(24): 4347--4355
collier transcription in a single Drosophila muscle lineage: the combinatorial control of muscle identity. [FBrf0200492]
Kim et al., 2007, Dev. Cell 12(4): 571--586
A critical function for the actin cytoskeleton in targeted exocytosis of prefusion vesicles during myoblast fusion. [FBrf0202337]
Nguyen et al., 2007, J. Cell Biol. 179(2): 219--227
Drosophila mind bomb2 is required for maintaining muscle integrity and survival. [FBrf0201389]
Schafer et al., 2007, Dev. Biol. 304(2): 664--674
The Wiskott-Aldrich syndrome protein (WASP) is essential for myoblast fusion in Drosophila. [FBrf0194614]
Balagopalan et al., 2006, Mol. Cell. Biol. 26(24): 9442--9455
The CDM superfamily protein MBC directs myoblast fusion through a mechanism that requires phosphatidylinositol 3,4,5-triphosphate binding but is independent of direct interaction with DCrk. [FBrf0194774]
Menon et al., 2005, J. Cell Biol. 169(6): 909--920
A positive feedback loop between dumbfounded and rolling pebbles leads to myotube enlargement in Drosophila. [FBrf0187819]
Chen et al., 2003, Cell 114(6): 751--762
Control of myoblast fusion by a guanine nucleotide exchange factor, loner, and its effector ARF6. [FBrf0161992]
Menon and Chia, 2001, Dev. Cell 1(5): 691--703
Drosophila rolling pebbles: a multidomain protein required for myoblast fusion that recruits D-Titin in response to the myoblast attractant Dumbfounded. [FBrf0141462]
Supplementary material
Bazigou et al., 2007, Cell 128(5):
Supplemental Data. Anterograde Jelly belly and Alk receptor tyrosine kinase signaling mediates retinal axon targeting in Drosophila. [FBrf0199314]