No title available.Stapleton M., Brokstein P., Hong L., Agbayani A., Carlson J., Champe M., Chavez C., Dorsett V., Farfan D.[...], Celniker S.Cited forNUCLEOTIDE SEQUENCEStrainBerkeleyCategorySequencesSourceUniProtKB unreviewed (TrEMBL)Submission Submitted to EMBL/GenBank/DDBJ databases (AUG-2001)Cited in299+
Two sequential gene expression programs bridged by cell division support long-distance collective cell migration.Sun J., Durmaz A.D., Babu A., Macabenta F., Stathopoulos A.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCDevelopment 151:dev202262-dev202262 (2024)Mapped to37
Review: myogenic and muscle toxicity targets of environmental methylmercury exposure.Tam L.M., Rand M.D.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCArch Toxicol 98:1645-1658 (2024)Mapped to15
A genetic screen to uncover mechanisms underlying lipid transfer protein function at membrane contact sites.Mishra S., Manohar V., Chandel S., Manoj T., Bhattacharya S., Hegde N., Nath V.R., Krishnan H., Wendling C.[...], Raghu P.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCLife Sci Alliance 7:e202302525-e202302525 (2024)Mapped to51
Tissue flow regulates planar cell polarity independently of the Frizzled core pathway.Ayukawa T., Akiyama M., Hozumi Y., Ishimoto K., Sasaki J., Senoo H., Sasaki T., Yamazaki M.View abstractCategoryFunctionSourceFlyBase: FBgn0032683PubMedEurope PMCCell Rep 40:111388-111388 (2022)Mapped to51
LanB1 Cooperates With Kon-Tiki During Embryonic Muscle Migration in <i>Drosophila</i>.Perez-Moreno J.J., Santa-Cruz Mateos C., Martin-Bermudo M.D., Estrada B.View abstractCategoryFunctionSourceFlyBase: FBgn0032683PubMedEurope PMCFront Cell Dev Biol 9:749723-749723 (2021)Mapped to3
Latent effects of early-life methylmercury exposure on motor function in Drosophila.Peppriell A.E., Gunderson J.T., Krout I.N., Vorojeikina D., Rand M.D.View abstractCategoriesFunction, ExpressionSourceFlyBase: FBgn0032683PubMedEurope PMCNeurotoxicol Teratol 88:107037-107037 (2021)Mapped to8
Genome-wide phenotypic RNAi screen in the Drosophila wing: phenotypic description of functional classes.Lopez-Varea A., Vega-Cuesta P., Ruiz-Gomez A., Ostale C.M., Molnar C., Hevia C.F., Martin M., Organista M.F., de Celis J.[...], de Celis J.F.View abstractCategoryFunctionSourceFlyBase: FBgn0032683PubMedEurope PMCG3 (Bethesda) 11:jkab349-jkab349 (2021)Mapped to99+
Neural Tissue Homeostasis and Repair Is Regulated via CS and DS Proteoglycan Motifs.Hayes A.J., Melrose J.View abstractCategoriesFunction, ExpressionSourceFlyBase: FBgn0032683PubMedEurope PMCFront Cell Dev Biol 9:696640-696640 (2021)Mapped to29
A genetic screen for regulators of muscle morphogenesis in Drosophila.Ou T., Huang G., Wilson B., Gontarz P., Skeath J.B., Johnson A.N.View abstractCategoryFunctionSourceFlyBase: FBgn0032683PubMedEurope PMCG3 (Bethesda) 11:jkab172-jkab172 (2021)Mapped to18
Mechano-chemical enforcement of tendon apical ECM into nano-filaments during Drosophila flight muscle development.Chu W.C., Hayashi S.View abstractCategoryFunctionSourceFlyBase: FBgn0032683PubMedEurope PMCCurr Biol 31:1366-1378.e7 (2021)Mapped to29
Regenerative neurogenic response from glia requires insulin-driven neuron- glia communication.Harrison N.J., Connolly E., Gascon Gubieda A., Yang Z., Altenhein B., Losada Perez M., Moreira M., Sun J., Hidalgo A.View abstractCategoriesFunction, ExpressionSourceFlyBase: FBgn0032683PubMedEurope PMCElife 10:e58756-e58756 (2021)Mapped to99+
The Hippo pathway controls myofibril assembly and muscle fiber growth by regulating sarcomeric gene expression.Kaya-Copur A., Marchiano F., Hein M.Y., Alpern D., Russeil J., Luis N.M., Mann M., Deplancke B., Habermann B.H., Schnorrer F.View abstractCategoryFunctionSourceFlyBase: FBgn0032683PubMedEurope PMCElife 10:e63726-e63726 (2021)Mapped to87
An insight on Drosophila myogenesis and its assessment techniques.Dubey M., Ain U., Firdaus H.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCMol Biol Rep 47:9849-9863 (2020)Mapped to99+
Genomics of Recombination Rate Variation in Temperature-Evolved Drosophila melanogaster Populations.Winbush A., Singh N.D.View abstractCategorySequencesSourceFlyBase: FBgn0032683PubMedEurope PMCGenome Biol Evol 13:evaa252-evaa252 (2021)Mapped to99+
Methylmercury myotoxicity targets formation of the myotendinous junction.Peppriell A.E., Gunderson J.T., Vorojeikina D., Rand M.D.View abstractCategoriesFunction, Expression, Phenotypes & VariantsSourceFlyBase: FBgn0032683PubMedEurope PMCToxicology 443:152561-152561 (2020)Mapped to11
Indirect flight muscles in Drosophila melanogaster as a tractable model to study muscle development and disease.Jawkar S., Nongthomba U.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCInt J Dev Biol 64:167-173 (2020)Mapped to82
Collective Migrations of <i>Drosophila</i> Embryonic Trunk and Caudal Mesoderm-Derived Muscle Precursor Cells.Sun J., Macabenta F., Akos Z., Stathopoulos A.View abstractCategoryExpressionSourceFlyBase: FBgn0032683PubMedEurope PMCGenetics 215:297-322 (2020)Mapped to99+
Functional analysis of glycosylation using Drosophila melanogaster.Nishihara S.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCGlycoconj J 37:1-14 (2020)Mapped to99+
Genetic Modifiers of Neurodegeneration in a <i>Drosophila</i> Model of Parkinson's Disease.Lavoy S., Chittoor-Vinod V.G., Chow C.Y., Martin I.View abstractCategoriesFunction, Phenotypes & VariantsSourceFlyBase: FBgn0032683PubMedEurope PMCGenetics 209:1345-1356 (2018)Mapped to78
A transcriptomics resource reveals a transcriptional transition during ordered sarcomere morphogenesis in flight muscle.Spletter M.L., Barz C., Yeroslaviz A., Zhang X., Lemke S.B., Bonnard A., Brunner E., Cardone G., Basler K.[...], Schnorrer F.View abstractCategoriesFunction, ExpressionSourceFlyBase: FBgn0032683PubMedEurope PMCElife 7:e34058-e34058 (2018)Mapped to90
Glia: from 'just glue' to essential players in complex nervous systems: a comparative view from flies to mammals.Losada-Perez M.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCJ Neurogenet 32:78-91 (2018)Mapped to51
Polarization-resolved microscopy reveals a muscle myosin motor-independent mechanism of molecular actin ordering during sarcomere maturation.Loison O., Weitkunat M., Kaya-Copur A., Nascimento Alves C., Matzat T., Spletter M.L., Luschnig S., Brasselet S., Lenne P.F., Schnorrer F.View abstractSourceFlyBase: FBgn0032683PubMedEurope PMCPLoS Biol 16:e2004718-e2004718 (2018)Mapped to22
A gene-specific <i>T2A-GAL4</i> library for <i>Drosophila</i>.Lee P.T., Zirin J., Kanca O., Lin W.W., Schulze K.L., Li-Kroeger D., Tao R., Devereaux C., Hu Y.[...], Bellen H.J.View abstractCategoriesFunction, Phenotypes & VariantsSourceFlyBase: FBgn0032683PubMedEurope PMCElife 7:e35574-e35574 (2018)Mapped to99+
New genes often acquire male-specific functions but rarely become essential in <i>Drosophila</i>.Kondo S., Vedanayagam J., Mohammed J., Eizadshenass S., Kan L., Pang N., Aradhya R., Siepel A., Steinhauer J., Lai E.C.View abstractCategoriesFunction, Phenotypes & VariantsSourceFlyBase: FBgn0032683PubMedEurope PMCGenes Dev 31:1841-1846 (2017)Mapped to91