Mitotic retention of gene expression patterns by the cell fate-determining transcription factor Runx2.
about
Mitotic bookmarking by transcription factorsLive cell imaging of the cancer-related transcription factor RUNX2 during mitotic progressionModulation of Runx2 activity by estrogen receptor-alpha: implications for osteoporosis and breast cancerSimilarities between the Epstein-Barr Virus (EBV) Nuclear Protein EBNA1 and the Pioneer Transcription Factor FoxA: Is EBNA1 a "Bookmarking" Oncoprotein that Alters the Host Cell Epigenotype?The architectural organization of human stem cell cycle regulatory machineryCell-cycle-dependent regulation of androgen receptor functionRibosome biogenesis in skeletal development and the pathogenesis of skeletal disordersTranscriptional corepressor TLE1 functions with Runx2 in epigenetic repression of ribosomal RNA genes.Differential parental transmission of markers in RUNX2 among cleft case-parent trios from four populations.Epigenetic characteristics of the mitotic chromosome in 1D and 3D.Promoter-bound p300 complexes facilitate post-mitotic transmission of transcriptional memoryTranscription factor-mediated epigenetic regulation of cell growth and phenotype for biological control and cancer.TIEG1/KLF10 modulates Runx2 expression and activity in osteoblasts.Subnuclear targeting of the Runx3 tumor suppressor and its epigenetic association with mitotic chromosomes.The leukemogenic t(8;21) fusion protein AML1-ETO controls rRNA genes and associates with nucleolar-organizing regions at mitotic chromosomes.A RUNX2-HDAC1 co-repressor complex regulates rRNA gene expression by modulating UBF acetylation.The osteogenic transcription factor Runx2 regulates components of the fibroblast growth factor/proteoglycan signaling axis in osteoblastsArchitectural epigenetics: mitotic retention of mammalian transcriptional regulatory informationTissue-specific mitotic bookmarking by hematopoietic transcription factor GATA1.Assessment of transmission distortion on chromosome 6p in healthy individuals using tagSNPs.The Role of RUNX2 in Osteosarcoma Oncogenesis.Three-dimensional genome architecture: players and mechanisms.Gene-specific factors determine mitotic expression and bookmarking via alternate regulatory elements.Mitotic bookmarking of genes: a novel dimension to epigenetic control.The human SWI/SNF complex associates with RUNX1 to control transcription of hematopoietic target genesActin microfilament mediates osteoblast Cbfa1 responsiveness to BMP2 under simulated microgravityArchitectural genetic and epigenetic control of regulatory networks: compartmentalizing machinery for transcription and chromatin remodeling in nuclear microenvironments.Changes in sub-cellular localisation of trophoblast and inner cell mass specific transcription factors during bovine preimplantation developmentCancer-related ectopic expression of the bone-related transcription factor RUNX2 in non-osseous metastatic tumor cells is linked to cell proliferation and motilityBookmarking the genome: maintenance of epigenetic information.Brd4 marks select genes on mitotic chromatin and directs postmitotic transcriptionGenome-wide co-occupancy of AML1-ETO and N-CoR defines the t(8;21) AML signature in leukemic cells.Genomic promoter occupancy of runt-related transcription factor RUNX2 in Osteosarcoma cells identifies genes involved in cell adhesion and motility.Prevention of premature fusion of calvarial suture in GLI-Kruppel family member 3 (Gli3)-deficient mice by removing one allele of Runt-related transcription factor 2 (Runx2).Runx2 deficiency and defective subnuclear targeting bypass senescence to promote immortalization and tumorigenic potential.The cancer-related transcription factor Runx2 modulates cell proliferation in human osteosarcoma cell linesEvidence of gene-environment interaction for the RUNX2 gene and environmental tobacco smoke in controlling the risk of cleft lip with/without cleft palate.Mitotic bookmarking: maintaining post-mitotic reprogramming of transcription reactivationThe abbreviated pluripotent cell cycle.Dynamic changes in the genomic localization of DNA replication-related element binding factor during the cell cycle
P2860
Q21198853-AC8581F5-D6BF-42AD-820D-D80A046F535BQ24606439-28ABF5A9-5443-4B74-9032-443B5C8BD481Q24654971-E1CB38DC-DFD5-42DA-99AB-12A643C1A25DQ26823342-6BBBC175-186F-4C2D-8F6E-6B999452AB99Q28609122-507E402C-5577-4D66-BEFD-BBE6C1B6A3FFQ30300725-4C51BAFD-476C-4AF7-85A3-CEC9925EB868Q33609691-DB83F1F6-BF64-481D-B050-9D121DAB6996Q33732988-B8C91F42-9730-4C76-A819-01BACC2141D0Q33740394-CD6C658F-FD5A-4C9E-BABF-8C0120E11BE4Q33758067-C5309D6E-3CCB-43CD-8FA7-D10F571CA116Q33779012-4A91C6AA-95C4-43B4-B959-85DA9DF388C4Q33823421-88F57AE2-E264-43FC-BD26-66CC1156306AQ33894869-D70A2FBE-A7B1-4B96-8BC7-EF4D7BB0CE49Q33917511-7A564DB9-CAD6-4FA7-8B4A-C85813B9A1AEQ33995514-AE303066-74D8-4CCA-BD7B-D30C7DF15E9FQ34030988-0ED9806A-F928-4C38-B43D-C61BF0907450Q34052909-FC1EEC40-4260-40E6-84D7-438499F20B8BQ34178082-73C52B15-0C8E-4CC3-9132-9C9EFF7681FBQ34294625-61159957-08B8-4E0E-BCCC-B69AE8F5DBD1Q34327057-A063574F-943A-4D2E-843B-DDD8A318D1CDQ34423871-5584ED01-0614-4616-9DFE-C5C72AA504E0Q34466522-AD32A1A0-C66D-4F13-AD38-DF586221BB3AQ34502167-0032A0FE-6AC6-47E5-A6B3-B2EA3459A3EDQ34551588-B9E7AED1-1576-4602-A597-B2F93BDB9AF5Q34606841-21CA71EC-6AEF-474A-BE3C-582CF1691DCFQ34722945-1578AEB3-B302-42B5-BCB2-375DBB13A723Q34731914-7F5DB57B-2E79-4D9C-9623-AF2939D70F0AQ34938871-A8C33630-098C-4EFD-9E72-B957D642EE26Q34989177-BDEB3A2F-CDE7-45F8-BD17-65C2F1C2FE44Q34997981-6D74AC0A-7703-4BAC-9A42-23C3CC7DF5ABQ35007045-722CCEF0-EA25-4EC7-B1CC-0A27DF9654F8Q35619449-7FB5BDE9-0D02-401B-8CAB-304262E98FF7Q35762938-B5C40C60-51CD-4C7D-86FC-A9482A0DA818Q36033280-94BF5989-B0EC-475F-98E4-E24604761D8EQ36288903-B5EFD88E-31D9-462F-95E3-5CD7E044AB29Q36672392-22F7A029-EF28-4B42-A98D-C9FB83C80F3DQ36716183-01142670-9041-4DE8-AF1A-80751788D01FQ36745362-E080D75C-9D57-4DBE-90F1-D8E3EA0873A8Q36886887-52D85EB8-66E8-4935-96A7-8960F26FF602Q36923350-E87D7203-311C-477E-AE63-33F3115434CB
P2860
Mitotic retention of gene expression patterns by the cell fate-determining transcription factor Runx2.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Mitotic retention of gene expr ...... ng transcription factor Runx2.
@ast
Mitotic retention of gene expr ...... ng transcription factor Runx2.
@en
type
label
Mitotic retention of gene expr ...... ng transcription factor Runx2.
@ast
Mitotic retention of gene expr ...... ng transcription factor Runx2.
@en
prefLabel
Mitotic retention of gene expr ...... ng transcription factor Runx2.
@ast
Mitotic retention of gene expr ...... ng transcription factor Runx2.
@en
P2093
P2860
P356
P1476
Mitotic retention of gene expr ...... ing transcription factor Runx2
@en
P2093
Andre J van Wijnen
Daniel W Young
David Lapointe
Gary S Stein
Jane B Lian
Janet L Stein
Mario Galindo
Martin Montecino
Mohammad Q Hassan
Paul Furcinitti
P2860
P304
P356
10.1073/PNAS.0611419104
P407
P577
2007-02-20T00:00:00Z