Requirement for the Drosophila COE transcription factor Collier in formation of an embryonic muscle: transcriptional response to notch signalling.
about
The EBF/Olf/Collier family of transcription factors: regulators of differentiation in cells originating from all three embryonal germ layers.Cellular immune response to parasitization in Drosophila requires the EBF orthologue collierSpecification of the somatic musculature in DrosophilaA new heart for a new head in vertebrate cardiopharyngeal evolutionCOE loss-of-function analysis reveals a genetic program underlying maintenance and regeneration of the nervous system in planariansRegulation and functions of the lms homeobox gene during development of embryonic lateral transverse muscles and direct flight muscles in DrosophilaEarly chordate origins of the vertebrate second heart fieldExpression of collier in the premandibular segment of myriapods: support for the traditional Atelocerata concept or a case of convergence?Nodal points and complexity of Notch-Ras signal integration3D analysis of founder cell and fusion competent myoblast arrangements outlines a new model of myoblast fusion.Segment-specific neuronal subtype specification by the integration of anteroposterior and temporal cues.Multi-step control of muscle diversity by Hox proteins in the Drosophila embryo.Coe genes are expressed in differentiating neurons in the central nervous system of protostomes.Drosophila araucan and caupolican integrate intrinsic and signalling inputs for the acquisition by muscle progenitors of the lateral transverse fate.In vivo RNAi screen reveals neddylation genes as novel regulators of Hedgehog signalingDevelopmental expression of COE across the Metazoa supports a conserved role in neuronal cell-type specification and mesodermal development.Tissue-specific genome editing in Ciona embryos by CRISPR/Cas9.Muscle cell fate choice requires the T-box transcription factor midline in DrosophilaGenome-Wide Mapping of Collier In Vivo Binding Sites Highlights Its Hierarchical Position in Different Transcription Regulatory Networks.Org-1, the Drosophila ortholog of Tbx1, is a direct activator of known identity genes during muscle specification.The EBF transcription factor Collier directly promotes Drosophila blood cell progenitor maintenance independently of the niche.Diet-Induced Podocyte Dysfunction in Drosophila and Mammals.Dynamics of transcriptional (re)-programming of syncytial nuclei in developing muscles.Sequential phosphorylation of smoothened transduces graded hedgehog signaling.Genetic dissection of the Transcription Factor code controlling serial specification of muscle identities in DrosophilaVisualizing new dimensions in Drosophila myoblast fusion.Crossveinless and the TGFbeta pathway regulate fiber number in the Drosophila adult jump muscleDrosophila Condensin II subunit Chromosome-associated protein D3 regulates cell fate determination through non-cell-autonomous signaling.Collier/OLF/EBF-dependent transcriptional dynamics control pharyngeal muscle specification from primed cardiopharyngeal progenitors.EBF proteins participate in transcriptional regulation of Xenopus muscle development.Rewiring of an ancestral Tbx1/10-Ebf-Mrf network for pharyngeal muscle specification in distinct embryonic lineages.
P2860
Q24540198-03ED21B7-86C4-4E7B-B97E-858DFD178A05Q24798651-4457C0CD-3C7F-47D6-9B79-74C16A07D32EQ26849725-F167776C-77DD-4131-B19B-BAE896F74B54Q27008549-225F3572-03FE-42CD-81AA-5C78BA435318Q27312189-CF437322-2E3C-43E1-ABD9-C6BADFDF1F11Q27315490-49D7B238-CA04-4519-9F39-21A305392BBAQ28595513-5831FBA4-02DC-40D4-BF10-8987E5938BDDQ28742078-932566F2-8157-4E86-9FA2-2158008F75C7Q28755679-32CA567A-C7FC-414A-812F-EDAACD3D28A4Q30488786-385A2E48-5537-437A-A619-2F7941887F52Q33582048-55C40B2E-3625-4588-9196-B2CF23161CCBQ33807568-006EBA7B-24CC-4BC1-AF90-16A3877B3C68Q33939190-286FDE75-B926-438E-924C-F09915363FA8Q33979557-4D674E53-EAB3-4183-A206-80AE82A8F512Q34023306-9F2FD4D2-52CF-4B9E-A96D-2239A3E74396Q34341682-9572356C-F04F-4E41-BACD-DCC2162AA177Q34999225-61F14520-EB87-4365-8E0B-442CA9D037BFQ35145752-575A03B3-F352-4A78-863B-D7940D341A37Q35708538-E9D3A988-6AC9-4F00-A5EC-B4FD605334BBQ35741934-8D7DFFE9-6047-4E65-9F41-3B31BA0A74ADQ35895627-E7282FCE-E37B-444B-8678-F4A25BEC5ED6Q35941157-7F4BD2DC-8AB7-42E0-A2EF-9FC10AB69CA6Q36397186-CE82F806-A442-4CAD-B328-393A99C2CA14Q36478223-84BD1067-17CB-48E9-B2A3-2E901249B652Q37112287-526AA068-F809-4B04-ACE8-44605D77BD05Q37135603-142CFC46-2C27-4D24-B0ED-D04F30E443ECQ37201420-E5CA33AA-36C7-4DC0-A472-E2E133AF9DA5Q37217377-48597A7F-C48B-4DBD-8A0E-00A1DEB6AE46Q40292898-E722A0C6-2415-4FE6-9FF4-4B9DC44DE5E0Q42170054-953D92DA-A2BF-4B70-AEB9-1C9477CC424FQ42377388-2D630B14-85CD-4813-91A3-F42A96DAEA63
P2860
Requirement for the Drosophila COE transcription factor Collier in formation of an embryonic muscle: transcriptional response to notch signalling.
description
1999 nî lūn-bûn
@nan
1999 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年学术文章
@wuu
1999年学术文章
@zh-cn
1999年学术文章
@zh-hans
1999年学术文章
@zh-my
1999年学术文章
@zh-sg
1999年學術文章
@yue
name
Requirement for the Drosophila ...... response to notch signalling.
@ast
Requirement for the Drosophila ...... response to notch signalling.
@en
type
label
Requirement for the Drosophila ...... response to notch signalling.
@ast
Requirement for the Drosophila ...... response to notch signalling.
@en
prefLabel
Requirement for the Drosophila ...... response to notch signalling.
@ast
Requirement for the Drosophila ...... response to notch signalling.
@en
P1433
P1476
Requirement for the Drosophila ...... response to notch signalling.
@en
P2093
Crozatier M
P304
P407
P577
1999-04-01T00:00:00Z