SWI/SNF chromatin remodeling complex is obligatory for BMP2-induced, Runx2-dependent skeletal gene expression that controls osteoblast differentiation
about
Loss of ATRX does not confer susceptibility to osteoarthritisTherapeutic advances for the tumors associated with neurofibromatosis type 1, type 2, and schwannomatosisRunx expression is mitogenic and mutually linked to Wnt activity in blastula-stage sea urchin embryosChapter 5. Nuclear actin-related proteins in epigenetic control.Mechanisms by which SMARCB1 loss drives rhabdoid tumor growth.Epigenetic pathways regulating bone homeostasis: potential targeting for intervention of skeletal disorders.The human SWI/SNF complex associates with RUNX1 to control transcription of hematopoietic target genesHigh expression of BMP pathway genes distinguishes a subset of atypical teratoid/rhabdoid tumors associated with shorter survival.Mitotic retention of gene expression patterns by the cell fate-determining transcription factor Runx2.Essential role of ARID2 protein-containing SWI/SNF complex in tissue-specific gene expression.Lim mineralization protein 3 induces the osteogenic differentiation of human amniotic fluid stromal cells through Kruppel-like factor-4 downregulation and further bone-specific gene expressionEx vivo-transduced autologous skin fibroblasts expressing human Lim mineralization protein-3 efficiently form new bone in animal models.Mechanisms of ATP dependent chromatin remodeling.Nucleosome organization and targeting of SWI/SNF chromatin-remodeling complexes: contributions of the DNA sequence.How many remodelers does it take to make a brain? Diverse and cooperative roles of ATP-dependent chromatin-remodeling complexes in development.Molecular switches involving homeodomain proteins, HOXA10 and RUNX2 regulate osteoblastogenesis.SWI/SNF-Mediated Lineage Determination in Mesenchymal Stem Cells Confers Resistance to Osteoporosis.Remodeling of chromatin structure within the promoter is important for bmp-2-induced fgfr3 expression.Contributions of extracellular matrix signaling and tissue architecture to nuclear mechanisms and spatial organization of gene expression controlSWI/SNF-independent nuclease hypersensitivity and an increased level of histone acetylation at the P1 promoter accompany active transcription of the bone master gene Runx2.An architectural genetic and epigenetic perspective.SWI/SNF chromatin remodeling complex: a new cofactor in reprogramming.CD40 signaling drives B lymphocytes into an intermediate memory-like state, poised between naïve and plasma cells.Identification of Three Early Phases of Cell-Fate Determination during Osteogenic and Adipogenic Differentiation by Transcription Factor Dynamics.Structural coupling of Smad and Runx2 for execution of the BMP2 osteogenic signal.An association of peripheral nerve sheath tumors and lipomas.p38 regulates expression of osteoblast-specific genes by phosphorylation of osterixThe requirement for SNF5/INI1 in adipocyte differentiation highlights new features of malignant rhabdoid tumors.Chromatin remodeling by SWI/SNF results in nucleosome mobilization to preferential positions in the rat osteocalcin gene promoter.Brg1, the ATPase subunit of the SWI/SNF chromatin remodeling complex, is required for myeloid differentiation to granulocytes.Induction of functional Brm protein from Brm knockout miceChromatin remodeling and transcriptional activity of the bone-specific osteocalcin gene require CCAAT/enhancer-binding protein beta-dependent recruitment of SWI/SNF activity.Runx2 disruption promotes immortalization and confers resistance to oncogene-induced senescence in primary murine fibroblasts.Prolactin decreases expression of Runx2, osteoprotegerin, and RANKL in primary osteoblasts derived from tibiae of adult female rats.Genome-wide DNase hypersensitivity, and occupancy of RUNX2 and CTCF reveal a highly dynamic gene regulome during MC3T3 pre-osteoblast differentiation.SWI/SNF chromatin remodeling ATPase Brm regulates the differentiation of early retinal stem cells/progenitors by influencing Brn3b expression and Notch signaling.The microphthalmia-associated transcription factor requires SWI/SNF enzymes to activate melanocyte-specific genes.Update from the 2011 International Schwannomatosis Workshop: From genetics to diagnostic criteria.
P2860
Q28592780-C0175ED0-410D-4A02-BF3D-B997B5EAE60BQ30357776-2F09EF2E-8078-41CF-AC16-9786001172EEQ33385660-78C97BC5-17EA-4FCF-9F6A-2D90F40A625AQ33568422-07027B13-7BEA-46AC-AA96-DFFC21A55C10Q34332647-A7796041-D4E5-462B-AAAF-CA67D72E3D5BQ34437672-BE55AEE3-E0E3-4AEB-9329-A80DF86C5720Q34606841-1CF4E313-7489-4026-973B-E8773A9490DAQ35570270-7B8CE1D0-2E58-4A3B-B6F7-991E667F031FQ35652284-89FFE722-4235-44CC-B231-A95C5448954CQ35762971-1FE214DA-234F-49B9-A6B2-DE91F0DA2718Q36316452-96DC26E9-5CFB-4D63-B828-C87C8D838BCEQ36370725-0CDA93FF-D5F0-4C7C-9CEB-D3247B06AB92Q36738573-0A2951E6-3840-49C2-83C3-799A845D7437Q36916642-7A5633FA-0F07-486F-9FEB-23D745D3187BQ36916651-77DFC1CC-E2CB-4B33-BE4D-D39D293B0240Q37150674-64C212BB-2AD1-48CE-B454-1C35A43A7DCBQ37238318-A8CA560E-EFAA-4498-A249-7000E7CC4FDCQ37259048-B499E7A3-3BEF-4CFE-8B12-16896C097C15Q37308540-9B2D7ED3-4CC8-4D53-96DC-251A5F7AB549Q37384818-4785234D-49F2-4017-90CD-B6F9D7C60926Q37823830-149F1FA4-0BB7-406D-8AB7-A2D4ADB44990Q37886789-4DACD61B-F3DA-451C-AA33-4D227AB5FDBDQ38309302-1F497256-A3D2-436B-8CE7-A252C3C4B4DDQ38435440-B21CB84D-5866-4296-BE0F-EB4027CD12BEQ38923789-21B0FD52-D445-443F-8950-6A382E51927BQ39024134-E3D7AD32-A851-41F7-94B3-A980753091DFQ39671916-7A36CAF1-1A5E-4FB9-9CDB-5930EFC37F94Q40070769-83615189-C10E-4B0A-92FB-A9029C66222AQ40175879-4572D205-0C15-42F9-89B3-78FF3A699FFAQ40407321-997548D8-50BD-4FFE-84D7-BA9E8A91A52EQ41857096-CB0BE1C1-F480-4108-BF6C-16FC173C642DQ42496757-4CDB10C2-EC99-4FAC-B82F-4F2FBB25CC9BQ42819809-C862E90B-44C7-48E8-8E40-37867526EA61Q46277624-EFA3520A-30B7-4836-ADC2-CD29CEC0E135Q47142220-146EFBE9-016C-46F1-953B-2DF0C43D8B40Q50888054-1BF4C08B-A1A3-4847-A4FF-C663E6AFDE87Q52019222-36FA23B8-774E-4C21-8420-FB7DA2F5C66DQ53116195-1D1DE45F-0ACA-4FAF-99C6-3CF39ECECE55
P2860
SWI/SNF chromatin remodeling complex is obligatory for BMP2-induced, Runx2-dependent skeletal gene expression that controls osteoblast differentiation
description
2005 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մարտին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2005
@ast
im März 2005 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2005/03/01)
@sk
vědecký článek publikovaný v roce 2005
@cs
wetenschappelijk artikel (gepubliceerd op 2005/03/01)
@nl
наукова стаття, опублікована в березні 2005
@uk
مقالة علمية (نشرت في مارس 2005)
@ar
name
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@ast
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@en
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@nl
type
label
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@ast
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@en
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@nl
prefLabel
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@ast
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@en
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@nl
P2093
P921
P356
P1476
SWI/SNF chromatin remodeling c ...... ols osteoblast differentiation
@en
P2093
Andre van Wijnen
Anthony N Imbalzano
Brian Weiner
Daniel W Young
Gary S Stein
Jane B Lian
Janet L Stein
Jitesh Pratap
Martin Montecino
P2860
P304
P356
10.1002/JCB.20332
P577
2005-03-01T00:00:00Z