Lethal of scute, a proneural gene, participates in the specification of muscle progenitors during Drosophila embryogenesis.
about
MicroRNA1 influences cardiac differentiation in Drosophila and regulates Notch signalingThe complex tale of the achaete-scute complex: a paradigmatic case in the analysis of gene organization and function during developmentSpecification of the somatic musculature in DrosophilaShaping leg muscles in Drosophila: role of ladybird, a conserved regulator of appendicular myogenesisSpecification of Drosophila corpora cardiaca neuroendocrine cells from mesoderm is regulated by Notch signalingExpression-guided in silico evaluation of candidate cis regulatory codes for Drosophila muscle founder cells3D analysis of founder cell and fusion competent myoblast arrangements outlines a new model of myoblast fusion.The PDZ protein Canoe/AF-6 links Ras-MAPK, Notch and Wingless/Wnt signaling pathways by directly interacting with Ras, Notch and Dishevelled.Analysis of four achaete-scute homologs in Bombyx mori reveals new viewpoints of the evolution and functions of this gene family.The complex spatio-temporal regulation of the Drosophila myoblast attractant gene duf/kirre.The intracellular domain of Dumbfounded affects myoblast fusion efficiency and interacts with Rolling pebbles and Loner.Competent steps in determination of cell fate.Multi-step control of muscle diversity by Hox proteins in the Drosophila embryo.Drosophila araucan and caupolican integrate intrinsic and signalling inputs for the acquisition by muscle progenitors of the lateral transverse fate.Notch regulates the switch from symmetric to asymmetric neural stem cell division in the Drosophila optic lobeVariation in mesoderm specification across Drosophilids is compensated by different rates of myoblast fusion during body wall musculature developmentA machine learning approach for identifying novel cell type-specific transcriptional regulators of myogenesis.Myoblast fusion in Drosophila.A regulatory transcriptional loop controls proliferation and differentiation in Drosophila neural stem cellsInscuteable and numb mediate asymmetric muscle progenitor cell divisions during Drosophila myogenesis.Binary sibling neuronal cell fate decisions in the Drosophila embryonic central nervous system are nonstochastic and require inscuteable-mediated asymmetry of ganglion mother cells.The convergence of Notch and MAPK signaling specifies the blood progenitor fate in the Drosophila mesoderm.Control of neural precursor specification by proneural proteins in the CNS of DrosophilaA new level of plasticity: Drosophila smooth-like testes muscles compensate failure of myoblast fusion.Transcription of Drosophila troponin I gene is regulated by two conserved, functionally identical, synergistic elementsRaf-mediated cardiac hypertrophy in adult DrosophilaPost-transcriptional regulation of myotube elongation and myogenesis by Hoi Polloi.Genetic dissection of the Transcription Factor code controlling serial specification of muscle identities in DrosophilaCrossveinless and the TGFbeta pathway regulate fiber number in the Drosophila adult jump muscleCardiac gene regulatory networks in Drosophila.Embryonic even skipped-dependent muscle and heart cell fates are required for normal adult activity, heart function, and lifespan.Encoding anatomy: developmental gene regulatory networks and morphogenesis.Genetic and functional genomics approaches targeting the Notch pathway in cardiac development and congenital heart disease.Embryonic development of the nervous system of the temnocephalid flatworm Craspedella pedum.Drosophila SNS, a member of the immunoglobulin superfamily that is essential for myoblast fusion.Combinatorial signaling codes for the progressive determination of cell fates in the Drosophila embryonic mesoderm.Wnt and EGF pathways act together to induce C. elegans male hook developmentDrosophila tufted is a gain-of-function allele of the proneural gene amos.Developmental regulation of the Drosophila Tropomyosin I (TmI) gene is controlled by a muscle activator enhancer region that contains multiple cis-elements and binding sites for multiple proteins.Characterization of early steps in muscle morphogenesis in a Drosophila primary culture system.
P2860
Q24534497-D7F5424E-EADE-4E08-ABAF-F0AA77705716Q24649075-23845AD6-AA03-4005-A0A3-7C5045FC922EQ26849725-3AF900D4-C18F-426B-AB14-64C9A2C48A69Q27303134-DB73E2E9-F27E-40C9-A0CF-76A54A9045F0Q27336873-751AA062-3AEF-43B0-9799-D717CC3B2D75Q28469232-B813953D-7887-4EEC-AB2D-7AB0815A4588Q30488786-29DE89FF-F664-4BF8-A78D-E65F2A4EB5FDQ33267326-D21F5686-D419-457A-A180-EA7FC4223D45Q33322615-35C36D1C-BB6E-4B73-84A7-135AC660D370Q33501730-18DF0EAB-0188-4660-A071-8E0A2551A356Q33534699-DD43AE4C-9934-47CE-AE44-1EE216154C96Q33685688-0BCDAF52-2AF4-412B-A99F-77CCDB4A59CCQ33807568-A2E2EAF8-B060-4583-B64D-620DAF7CCA5AQ33979557-AEB7D12F-B280-4143-A5E0-D59F827C384AQ34080619-8036D449-B69F-4DFB-8541-9FD3C1B61B4DQ34110598-805FA015-30D1-4945-8294-F9039807F719Q34192877-8A2FD9AB-48D0-47AC-A865-240729218B91Q34732884-DA346111-2F20-4395-8F9E-E3A64FD83D33Q35164369-F5E48F82-1656-4CDF-A771-F6E2AA78D93AQ35189774-8067487F-7AFB-4101-AA40-F370291B887FQ35202431-5A640FBA-CAAA-4FD1-998D-AABAA0AE03AFQ35854221-F345D84A-4D4E-4287-8072-6EC1AC4871B0Q35915421-B6D3DA13-2229-40FC-8944-6016CB54D4AAQ36497715-D4E1F144-3254-49A2-B6BC-39D668603327Q36780204-0797FDD0-B20F-47B6-9704-5BA7F600DE17Q36981830-19427D0B-3230-402C-AA97-4DA3BB42B92BQ37091663-F8936D5F-D07D-48C6-BB1C-BB3E39D78012Q37112287-F251D38A-6CFE-4A60-8069-F507E0DD2330Q37201420-B8B8EEF3-7F59-4255-9B48-F689FEAACA99Q37291937-47808117-C90A-45CE-AC62-8A0ED0F60441Q37304972-DA80333F-D83A-44C6-B346-C0039B54713AQ38084243-00EF1ACA-DE4B-4CB6-A3DD-4BB8DE31E0DCQ38150808-A6BC6A69-1F32-45AE-BFBD-F32FEFC39A49Q38457318-694882CD-FA78-48EA-A794-6960CD896508Q40443633-C7A9EE9F-732E-482A-9382-F24D4A5FCE08Q40446468-B9A4D93C-1CE8-49FE-A95A-172D1CD6D779Q41499175-E66D0E40-5F15-4CB1-AD0D-F55B5E274DDEQ42160001-AE0D6905-B7F1-4B60-91F9-002C4D29786FQ42442661-E82E7B2D-CAC0-4DF3-815C-B02D654FF35FQ42781077-DD015F7A-5F8B-40E4-A50F-E26DD2F204EE
P2860
Lethal of scute, a proneural gene, participates in the specification of muscle progenitors during Drosophila embryogenesis.
description
1995 nî lūn-bûn
@nan
1995 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@ast
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@en
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@nl
type
label
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@ast
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@en
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@nl
prefLabel
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@ast
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@en
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@nl
P2093
P356
P1433
P1476
Lethal of scute, a proneural g ...... ring Drosophila embryogenesis.
@en
P2093
P304
P356
10.1101/GAD.9.19.2373
P577
1995-10-01T00:00:00Z