A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
about
The Eukaryotic Replisome Goes Under the MicroscopeEvolution of the methyl directed mismatch repair system in Escherichia coli.A Replisome's journey through the bacterial chromosome.Review: The lord of the rings: Structure and mechanism of the sliding clamp loader.Evolution of replication machines.MutSα maintains the mismatch repair capability by inhibiting PCNA unloading.Ctf4 Is a Hub in the Eukaryotic Replisome that Links Multiple CIP-Box Proteins to the CMG Helicase.MutS regulates access of the error-prone DNA polymerase Pol IV to replication sites: a novel mechanism for maintaining replication fidelity.Human CTF18-RFC clamp-loader complexed with non-synthesising DNA polymerase ε efficiently loads the PCNA sliding clamp.The Homologous Recombination Machinery Orchestrates Post-replication DNA Repair During Self-renewal of Mouse Embryonic Stem Cells.Ctf4 Links DNA Replication with Sister Chromatid Cohesion Establishment by Recruiting the Chl1 Helicase to the Replisome.A Comparative Study of Intratesticular Ductules in the Spermatogenically Active Testes of Shortfin Mako and Thresher Sharks.Mechanism of opening a sliding clamp.DNA Replication: How Does a Sliding Clamp Slide?Pivotal roles of PCNA loading and unloading in heterochromatin function.Architecture of the Saccharomyces cerevisiae Replisome.Bacterial and Eukaryotic Replisome MachinesChromosomes trapped in micronuclei are liable to segregation errors
P2860
Q26752772-6186DBE3-C05C-41B1-A259-069E4D806AA8Q38255035-5B9A82BE-D8FD-4BFF-B805-982C43537EABQ38534013-0583B87A-61C2-4E26-9C22-B59648256F83Q38751208-5E912291-D9E0-46AA-98CA-169BBC1656F3Q38829896-B4E54DE7-DAE7-45FF-BAF8-05910D0B52EFQ39612088-1C1490F4-FA3F-4FCE-877F-4A99F4D9515AQ39616391-A05AAC0A-CF55-48DA-BCC9-48EBC4C87173Q39713077-049FEB61-645E-4551-BE22-2E4ED2AC9705Q40335075-7C562D76-7954-4D29-8346-2AF59B2E60DCQ41047419-C6D07372-A0FE-4C5C-ADE6-01E3200A153BQ42127466-625DB0EB-6B67-4D54-A39F-7776BF798261Q46506281-44637E03-4288-429A-8D48-35BAEA0A1B46Q47706604-34405ED3-6719-48E2-A70E-D210A7B64828Q49775052-D4F8DE17-078B-423A-AD31-E06FDABCDEC9Q50026228-E0C9C3A6-B0A1-4F39-99F7-FE0E9A15945DQ50233460-490A992A-7DF8-4764-97D9-22B0788BA1FFQ57754548-2FC2D996-900F-46AA-8983-E3161AAB9D1BQ58319811-BEC70656-5E2E-4F59-B963-914BA7FE78F7
P2860
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
description
2015 nî lūn-bûn
@nan
2015 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@ast
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@en
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@nl
type
label
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@ast
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@en
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@nl
prefLabel
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@ast
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@en
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@nl
P2860
P3181
P1433
P1476
A proposal: Evolution of PCNA's role as a marker of newly replicated DNA
@en
P2093
Roxana Georgescu
P2860
P3181
P356
10.1016/J.DNAREP.2015.01.015
P407
P577
2015-02-09T00:00:00Z