Chromatin immunoprecipitation identifies photoreceptor transcription factor targets in mouse models of retinal degeneration: new findings and challenges.
about
A mutation in ZNF513, a putative regulator of photoreceptor development, causes autosomal-recessive retinitis pigmentosaBEST1 expression in the retinal pigment epithelium is modulated by OTX family membersEpigenomic landscapes of retinal rods and conesThe orphan nuclear hormone receptor ERRbeta controls rod photoreceptor survival.FIZ1 is part of the regulatory protein complex on active photoreceptor-specific gene promoters in vivo.Nuclear receptor Rev-erb alpha (Nr1d1) functions in concert with Nr2e3 to regulate transcriptional networks in the retina.Transcription coactivators p300 and CBP are necessary for photoreceptor-specific chromatin organization and gene expression.Pias3-dependent SUMOylation controls mammalian cone photoreceptor differentiationA 350 bp region of the proximal promoter of Rds drives cell-type specific gene expression.Mechanisms of blindness: animal models provide insight into distinct CRX-associated retinopathiesThe Spalt family transcription factor Sall3 regulates the development of cone photoreceptors and retinal horizontal interneurons.Transcriptome profiling of developing photoreceptor subtypes reveals candidate genes involved in avian photoreceptor diversification.Transcriptional regulation of neural retina leucine zipper (Nrl), a photoreceptor cell fate determinantCrx activates opsin transcription by recruiting HAT-containing co-activators and promoting histone acetylation.Mutations in NR2E3 can cause dominant or recessive retinal degenerations in the same familyRegulation of photoreceptor gene expression by Crx-associated transcription factor networkRod differentiation factor NRL activates the expression of nuclear receptor NR2E3 to suppress the development of cone photoreceptors.Building the developmental oculome: systems biology in vertebrate eye development and disease.Building a fly eye: terminal differentiation events of the retina, corneal lens, and pigmented epithelia.Top2b is involved in the formation of outer segment and synapse during late-stage photoreceptor differentiation by controlling key genes of photoreceptor transcriptional regulatory network.CRX controls retinal expression of the X-linked juvenile retinoschisis (RS1) gene.A specific box switches the cell fate determining activity of XOTX2 and XOTX5b in the Xenopus retina.Combinatorial regulation of a Blimp1 (Prdm1) enhancer in the mouse retina.Pph13 and orthodenticle define a dual regulatory pathway for photoreceptor cell morphogenesis and function.Blimp1 (Prdm1) prevents re-specification of photoreceptors into retinal bipolar cells by restricting competence.OTX2 and CRX rescue overlapping and photoreceptor-specific functions in the Drosophila eyeTranscription factors involved in retinogenesis are co-opted by the circadian clock following photoreceptor differentiation.CRX directs photoreceptor differentiation by accelerating chromatin remodeling at specific target sites
P2860
Q24297596-602B9CCE-AA29-4D84-A572-D0034FD1C3EAQ24321649-0E44953A-62B6-4FD5-89CB-39547141FD6EQ28550899-16117FB1-31D3-43DE-B079-FE4517B39976Q29465542-30611652-D2A0-4F69-8A60-BF49C45E1E13Q33375865-BE0E28F5-02C0-4758-B99F-717F5969CEFBQ33847588-E87F58C5-8A36-4D86-800C-BE102203F5D5Q34037768-0FAC3C89-BDD4-47AC-A2DF-DA8B3850DBD5Q34100790-C5BF38CA-A6B6-44E5-9085-C2A58BF14AF8Q34119861-D751E77D-E88A-4C57-AFFB-25A65D5CB56BQ34254397-FFC8C9B3-D4C5-4C79-8293-5F6A7535744DQ34966434-199143EC-C5B5-43E3-8880-ED945B3C7797Q35199280-B93D6D72-C6C9-4495-803F-B3F3B138DB66Q35378327-1EC223DC-6E51-46DB-A972-65CFF9D2FF8FQ36512977-A454BE2A-B4CD-4469-8F8C-18EC480C0793Q36856211-1543A8B3-3558-491A-BC86-1C53FA7A9F5EQ36896398-4F241E55-AB2C-469A-AABD-73C8897449CCQ37138691-6F3727AB-D530-45D8-AB90-D87131EB97B3Q37788016-C3E05193-2834-43F8-A9C4-B5A50FD4BA20Q37801481-B6576B53-1014-4C52-B4FC-B14234DD619EQ38859405-D15C5CEE-AF44-4FF1-B1E4-E34DDC435C59Q39928496-3DCF06E2-4E74-4536-A1A5-E862EE8F407AQ40114198-5BF1CF54-840C-4C77-8BA9-BC006F7D4F42Q41501587-B0D36E29-A4E2-4B7F-B75C-325A3228BDD9Q41877910-51588B2C-21B6-48DE-8644-3A8EE8CD5B47Q41939030-D76ADB69-CEDC-49EB-B5E1-98DFDD121DA9Q42325776-6665EA99-FEE6-46DE-ACD0-A8952FBF533AQ42845438-68AAF6D2-4015-4A2E-94E1-872838338261Q57172050-9796F58F-134F-43CD-BEDF-3E86E5082F2C
P2860
Chromatin immunoprecipitation identifies photoreceptor transcription factor targets in mouse models of retinal degeneration: new findings and challenges.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Chromatin immunoprecipitation ...... : new findings and challenges.
@en
type
label
Chromatin immunoprecipitation ...... : new findings and challenges.
@en
prefLabel
Chromatin immunoprecipitation ...... : new findings and challenges.
@en
P2860
P1433
P1476
Chromatin immunoprecipitation ...... : new findings and challenges.
@en
P2093
Guang-Hua Peng
Shiming Chen
P2860
P304
P356
10.1017/S0952523805225063
P577
2005-09-01T00:00:00Z