Genome-wide identification of direct targets of the Drosophila retinal determination protein Eyeless.
about
Retinal differentiation in DrosophilaDrosophila eyes absent is required for normal cone and pigment cell developmentDynamic rewiring of the Drosophila retinal determination network switches its function from selector to differentiationRetinal Expression of the Drosophila eyes absent Gene Is Controlled by Several Cooperatively Acting Cis-regulatory ElementsThe sine oculis homeobox (SIX) family of transcription factors as regulators of development and diseaseExplaining the sawtooth: latitudinal periodicity in a circadian gene correlates with shifts in generation number.Analysis of the transcriptomes downstream of Eyeless and the Hedgehog, Decapentaplegic and Notch signaling pathways in Drosophila melanogasterEye development under the control of SRp55/B52-mediated alternative splicing of eyelessFine-tuning enhancer models to predict transcriptional targets across multiple genomesIdentification of pax6-dependent gene regulatory networks in the mouse lens.The transcriptional co-factor Chip acts with LIM-homeodomain proteins to set the boundary of the eye field in Drosophila.Identification of functional TFAP2A and SP1 binding sites in new TFAP2A-modulated genesThe retinal determination gene eyes absent is regulated by the EGF receptor pathway throughout development in Drosophila.Robust target gene discovery through transcriptome perturbations and genome-wide enhancer predictions in Drosophila uncovers a regulatory basis for sensory specification.The chromatin-remodeling protein Osa interacts with CyclinE in Drosophila eye imaginal discs.Genome-wide expression profiling in the Drosophila eye reveals unexpected repression of notch signaling by the JAK/STAT pathway.Drosophila Pax6 promotes development of the entire eye-antennal disc, thereby ensuring proper adult head formation.chinmo is a functional effector of the JAK/STAT pathway that regulates eye development, tumor formation, and stem cell self-renewal in DrosophilaNuclear receptors connect progenitor transcription factors to cell cycle control.Daughterless homodimer synergizes with Eyeless to induce Atonal expression and retinal neuron differentiationAn intuitive graphical visualization technique for the interrogation of transcriptome data.Identification of in vivo DNA-binding mechanisms of Pax6 and reconstruction of Pax6-dependent gene regulatory networks during forebrain and lens development.Pax6 interactions with chromatin and identification of its novel direct target genes in lens and forebrainContext dependence of proneural bHLH proteins.The homeodomain of Eyeless regulates cell growth and antagonizes the paired domain-dependent retinal differentiation functionRegulation of Drosophila eye development by the transcription factor Sine oculis.Discovery of transcription factors and regulatory regions driving in vivo tumor development by ATAC-seq and FAIRE-seq open chromatin profiling.Eye selector logic for a coordinated cell cycle exit.Dual transcriptional activities of SIX proteins define their roles in normal and ectopic eye developmentIdentification of transcriptional targets of the dual-function transcription factor/phosphatase eyes absentInterpreting the regulatory genome: the genomics of transcription factor function in Drosophila melanogaster.Competition among gene regulatory networks imposes order within the eye-antennal disc of Drosophila.Targeting Drosophila eye developmentReceptor tyrosine kinases in Drosophila development.Generating patterned arrays of photoreceptors.Conserved chromosomal clustering of genes governed by chromatin regulators in Drosophila.Identifying sites bound by Epstein-Barr virus nuclear antigen 1 (EBNA1) in the human genome: defining a position-weighted matrix to predict sites bound by EBNA1 in viral genomes.The expression pattern of the genes engrailed, pax6, otd and six3 with special respect to head and eye development in Euperipatoides kanangrensis Reid 1996 (Onychophora: Peripatopsidae)Position weight matrix, gibbs sampler, and the associated significance tests in motif characterization and predictionThe molecular circuitry governing retinal determination.
P2860
Q26995517-6883D7EE-F479-4365-A5FF-AB07068E24DFQ27319827-A6BD2464-EF53-4F8B-AE8F-5ED0C305B4BBQ27320660-42683C6D-0560-4CE4-8AC8-D1E32B0AB0DAQ28554817-ADAA2D99-368C-4312-A027-3A987F6C358CQ28752140-E39557D5-DDE8-4E2F-96FD-FAE2A37D3434Q30872292-137D34EE-BA78-43A8-8A95-D035DFA61D59Q31089432-467862E1-A909-4EF7-B82B-66F828ED688FQ33275964-2DA76322-B122-453E-84AE-5D3814E97DA0Q33304533-72886087-B8E6-4A56-845C-0AA9DD2A3442Q33398528-AE3E0C66-A798-4CB7-B38C-74913FF478F0Q33561636-C9FE1DAE-6ADF-4C10-8327-BFD02C6F4CF3Q33595109-E1461E49-78AE-439C-BEDB-E32493566952Q33628418-5B9C2FCF-AF01-4EBB-ABF6-E946707C74BFQ33644434-93E51E05-1320-4DE6-88EB-B7440D8D3F8AQ33752620-405B1C81-43F5-414B-A6A4-319A0BA59635Q33757761-252973BF-925A-4C5A-9AD5-F33A98FF8614Q33790882-8B658678-3B5F-4415-A775-42D7E40F811CQ33808684-CBB595D2-26DC-48CF-BEFB-C8BD0B175381Q33884842-42175660-3481-4BD5-ADBC-5659FDF10B46Q33931853-F992E8AE-4B98-40A0-B897-7BDDE5ACB8E1Q33937728-22634144-F80C-421B-9C39-7AAF381F39A6Q34483376-6A042609-2450-43C3-B1F6-8ED67070AD6DQ34559489-9E5645B5-7BFA-42E2-A53D-9048140E6192Q34812284-450909F5-382E-49AE-BD77-6FA44D84D771Q34864796-4AE349A1-7232-488E-AE67-8C10CBD33CBBQ35107917-C8D39D80-F07D-4DD2-9ADC-13F66AE3500BQ35560754-5D9A43EA-2D3F-49FF-BBAC-863D52B1E69FQ35563825-7D192D42-3003-4C51-AF2A-B59D617095BEQ35741929-32696687-572A-4E6A-BAB2-FBE2414E8492Q36137361-649B23DB-55CB-4B8C-9231-687DC75F0419Q36281809-562AD6A4-6F76-4AD6-B283-EBCC9E78A71CQ36444155-FF353CBC-2300-468E-BE6F-E3BE4D549649Q36552249-61E8FAAB-EBE2-450A-89B1-1745E0C767E6Q36865167-EE78CE16-AD7F-4B33-8070-BD095BDA7725Q36872603-A1E11D4E-CE52-4310-AD6A-17A20DA6DA49Q36993043-65C5AC6B-6ABA-4623-8097-5865074523BDQ37127891-DB3AFAE4-36AE-4A56-8EEF-D7E80B9A7BDCQ37192973-EBA6DF2F-B6A6-4A9F-9FCB-1C85B1DA598EQ37288720-9AEE8AEE-0A09-4DE1-A017-18DE2238B090Q37327033-DCD19C9F-7AB9-4713-B255-B8045EABD6A7
P2860
Genome-wide identification of direct targets of the Drosophila retinal determination protein Eyeless.
description
2006 nî lūn-bûn
@nan
2006 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մարտին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Genome-wide identification of ...... determination protein Eyeless.
@en
Genome-wide identification of ...... determination protein Eyeless.
@nl
type
label
Genome-wide identification of ...... determination protein Eyeless.
@en
Genome-wide identification of ...... determination protein Eyeless.
@nl
prefLabel
Genome-wide identification of ...... determination protein Eyeless.
@en
Genome-wide identification of ...... determination protein Eyeless.
@nl
P2093
P2860
P356
P1433
P1476
Genome-wide identification of ...... determination protein Eyeless.
@en
P2093
Edwin J Ostrin
Graeme Mardon
Keqing Wang
Kristi Hoffman
P2860
P304
P356
10.1101/GR.4673006
P577
2006-03-13T00:00:00Z