Forkhead transcription factors establish origin timing and long-range clustering in S. cerevisiae
about
Fkh1 and Fkh2 bind multiple chromosomal elements in the S. cerevisiae genome with distinct specificities and cell cycle dynamicsThe replication domain model: regulating replicon firing in the context of large-scale chromosome architectureThree wise centromere functions: see no error, hear no break, speak no delayReplication stress in early S phase generates apparent micronuclei and chromosome rearrangement in fission yeast.Cell-cycle regulated transcription associates with DNA replication timing in yeast and humanBinding of the Fkh1 Forkhead Associated Domain to a Phosphopeptide within the Mph1 DNA Helicase Regulates Mating-Type Switching in Budding Yeast.Quantitative BrdU immunoprecipitation method demonstrates that Fkh1 and Fkh2 are rate-limiting activators of replication origins that reprogram replication timing in G1 phase.Regulation of budding yeast mating-type switching donor preference by the FHA domain of Fkh1Regulation of DNA replication timing on human chromosome by a cell-type specific DNA binding protein SATB1MYC and the control of DNA replication.Cis-acting DNA sequence at a replication origin promotes repeat expansion to fragile X full mutation.Chromatin structure and replication origins: determinants of chromosome replication and nuclear organizationA genome-wide 3C-method for characterizing the three-dimensional architectures of genomes.Regulation of DNA replication within the immunoglobulin heavy-chain locus during B cell commitmentNormalization of a chromosomal contact map.RNAP-II molecules participate in the anchoring of the ORC to rDNA replication origins.DNA replication timingA Link between ORC-origin binding mechanisms and origin activation time revealed in budding yeast.Cell cycle-independent phospho-regulation of Fkh2 during hyphal growth regulates Candida albicans pathogenesis.GC-rich DNA elements enable replication origin activity in the methylotrophic yeast Pichia pastorisRif1 regulates initiation timing of late replication origins throughout the S. cerevisiae genome.ColoWeb: a resource for analysis of colocalization of genomic features.Regulatory mechanisms that prevent re-initiation of DNA replication can be locally modulated at origins by nearby sequence elements.Different nucleosomal architectures at early and late replicating origins in Saccharomyces cerevisiae.Transcriptional control of fungal cell cycle and cellular events by Fkh2, a forkhead transcription factor in an insect pathogenTight Chk1 Levels Control Replication Cluster Activation in Xenopus.Mechanism of regulation of 'chromosome kissing' induced by Fob1 and its physiological significance.High Throughput Analyses of Budding Yeast ARSs Reveal New DNA Elements Capable of Conferring Centromere-Independent Plasmid Propagation.Behavior of replication origins in Eukaryota - spatio-temporal dynamics of licensing and firingReplication-timing boundaries facilitate cell-type and species-specific regulation of a rearranged human chromosome in mouse.Mouse Rif1 is a key regulator of the replication-timing programme in mammalian cells.Recruitment of Fkh1 to replication origins requires precisely positioned Fkh1/2 binding sites and concurrent assembly of the pre-replicative complex.Mechanisms of glycosylase induced genomic instabilityReplication timing is regulated by the number of MCMs loaded at origins.Quantitative, genome-wide analysis of eukaryotic replication initiation and terminationBack to the origin: reconsidering replication, transcription, epigenetics, and cell cycle control.The level of origin firing inversely affects the rate of replication fork progression.Replication timing and transcriptional control: beyond cause and effect-part III.Replicating Large Genomes: Divide and Conquer.Replication origins: determinants or consequences of nuclear organization?
P2860
Q21132333-CAF4B6DA-76E9-4296-9B28-60A1F3D03A41Q26825520-9B31E457-F082-4C20-89E2-2352293254F5Q27008596-51795EE8-4A49-4C48-91C8-3E4AFE931561Q27305589-F701A6BE-4E9C-4525-BE1E-898F1C9DA504Q27499698-3562507A-4C13-48C8-90EB-7B21F83B0FC6Q27930012-C7CC989A-9F2A-4DD3-85AD-A74781A0F02CQ27934621-EFD9E994-6915-4A5F-9269-35DA36271C23Q27936144-BBFB66EB-94F9-4B2E-AF84-17B035F04D9EQ31082683-93F267BC-5FA7-4303-BD55-ED50C5E67B25Q33653686-4011CC2D-6629-433B-BEF6-86FE23682C8FQ34117236-FDA08E42-C6F8-41E3-9B33-15FA2F3CD8ADQ34254857-9A571BC0-9A01-4BD8-BD00-D8AB989098D9Q34331241-272925B8-CEF5-4D40-8AE5-5C3D0C184C4BQ34341293-0F1641BE-E584-4B64-A1CB-CA451CC7863EQ34398212-4FB95B2B-E988-49E3-83D6-8E2BD21F88E1Q34545026-A8B9DF2C-2728-48C3-9AC1-878A77127637Q34654036-E7789B47-E887-43DB-8AF0-0CBAB563FEB1Q34998333-B14F9E45-02B9-45AB-B00A-45DFFDE57E91Q35009085-8187E032-BB60-4AE6-9A40-6655F7C57CFFQ35112992-85BEE944-C518-491A-A78A-6583EA1F4D1FQ35176804-A5738F40-2C4B-47F3-8233-95A2666D102CQ35190792-1C4DE3C3-B1D5-420C-9DF3-7586864892E8Q35191354-074334C2-BB6A-4B2E-9C3A-28092A52CA59Q35251268-5190B3C8-5D5E-4219-8229-39FD44418925Q35584778-375FFC52-3B5E-4424-9368-993C0ACA5A0BQ35653663-0B06086F-16FC-466D-822F-4785053B45D8Q35750787-1F3CE1E4-06C0-4C36-9D17-54FE5CDBB556Q35920385-6907ECFA-64B7-4469-A7CD-8620135200D2Q36189251-DEAA055E-4011-4D4F-9A06-6D5D713DCF27Q36231670-8B1AEB19-E48D-459D-A84B-F6221B0B65FDQ36234013-428409CF-A60B-4A4E-A18E-CA6F9B6BB0B9Q36264862-097D6A1E-CFC3-43B3-AE47-3BFE2DCB18FDQ36319705-E4EA4FD8-9A1A-4921-BBAD-BD08D231EA8EQ36333710-0972D147-9DA7-4E8E-A35A-4F23AEEC4C4CQ36771862-FE8815FD-7A74-42FC-B1EA-8373C962EFFAQ36796433-535DCF03-0843-4B9E-B1DA-0349E3C9C398Q36804052-A898BBC2-C863-414E-8E28-E841B78EB3C8Q36952044-7C887F01-839B-40BC-BB70-FFDEC4AC0D0DQ36969038-6A972D10-2FF6-4978-B7F9-9C2C8F6E1C97Q37022588-6A81E4C4-58E6-4B8A-B4F8-01B24C9877B7
P2860
Forkhead transcription factors establish origin timing and long-range clustering in S. cerevisiae
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@ast
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@en
Forkhead transcription factors ...... e clustering in S. cerevisiae.
@nl
type
label
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@ast
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@en
Forkhead transcription factors ...... e clustering in S. cerevisiae.
@nl
prefLabel
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@ast
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@en
Forkhead transcription factors ...... e clustering in S. cerevisiae.
@nl
P2093
P2860
P3181
P1433
P1476
Forkhead transcription factors ...... ge clustering in S. cerevisiae
@en
P2093
A Zachary Ostrow
Alexandra E Rex
Christopher J Viggiani
Jared M Peace
Simon R V Knott
P2860
P304
P3181
P356
10.1016/J.CELL.2011.12.012
P407
P577
2012-01-20T00:00:00Z