Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
about
Probing DNA clamps with single-molecule force spectroscopy.Nicotine mediates hypochlorous acid-induced nuclear protein damage in mammalian cells.Processivity factor of DNA polymerase and its expanding role in normal and translesion DNA synthesisThe interplay of primer-template DNA phosphorylation status and single-stranded DNA binding proteins in directing clamp loaders to the appropriate polarity of DNA.Stepwise loading of yeast clamp revealed by ensemble and single-molecule studies.Impact of individual proliferating cell nuclear antigen-DNA contacts on clamp loading and function on DNA.A central swivel point in the RFC clamp loader controls PCNA opening and loading on DNAShRNA-mediated silencing of the RFC3 gene suppress ovarian tumor cells proliferation.ATP binding and hydrolysis-driven rate-determining events in the RFC-catalyzed PCNA clamp loading reactionImproved solubility of replication factor C (RFC) Walker A mutantsReplication clamps and clamp loaders.Isotope-coded ATP probe for quantitative affinity profiling of ATP-binding proteins.The Mcm complex: unwinding the mechanism of a replicative helicase.Opening pathways of the DNA clamps proliferating cell nuclear antigen and Rad9-Rad1-Hus1.The ATP sites of AAA+ clamp loaders work together as a switch to assemble clamps on DNADna2 on the road to Okazaki fragment processing and genome stability in eukaryotes.Ubiquitination of PCNA and its essential role in eukaryotic translesion synthesis.Review: The lord of the rings: Structure and mechanism of the sliding clamp loader.POLD1: Central mediator of DNA replication and repair, and implication in cancer and other pathologiesA novel function for the conserved glutamate residue in the walker B motif of replication factor C.Kinetic analysis of PCNA clamp binding and release in the clamp loading reaction catalyzed by Saccharomyces cerevisiae replication factor C.Linchpin DNA-binding residues serve as go/no-go controls in the replication factor C-catalyzed clamp-loading mechanism.
P2860
Q30544116-92773942-43B6-4BCC-AADA-12F1C8F8D8FEQ33671292-92EECEF3-1BD0-482E-8C21-F38CF3101300Q33756104-B45E9E4C-0A3C-4E6D-B5E1-82123A28BEACQ34249678-93BBA48D-9EE2-4928-893C-830455B5B948Q34358765-2C57EEF7-D108-4314-8CAB-BDE8F1000072Q34383645-A2D47559-E6F1-490E-AB1E-79B4A99D28ACQ35718144-4486B6C8-3466-4844-848A-BFEF0A60DF98Q36095110-7A2CB5E1-FAAF-4A0D-9C5C-F4C606D7EC0BQ36218801-48DABC33-D271-4BD4-B690-E0BB6CAE0E17Q36596092-2257D822-2E56-4608-A1B2-40FD5794780BQ36932854-77E7389A-F88A-42DF-966B-AC81DFFA7028Q37166849-3AEE2F3D-67A8-4744-A142-7722FB74A4CDQ37451513-16240A76-293A-4BCE-94E1-73CBC717795DQ37528719-5331EB4C-2BBF-4FE7-AC61-AC12DCB5CCAEQ37608441-3DA0DA79-1B3B-43CE-B5E2-7C47D64545F4Q37687363-0B8B0247-081E-4DFD-8C5A-45A7C10DF859Q37861006-A0CE87E5-22E9-44E1-AC4B-B048F2916ACAQ38751208-679B210D-F545-4D26-B98F-7DBA2611B25EQ38870074-EC2FE594-FE54-4EAC-A3BF-D2632F9EC820Q42261115-7F2C17BF-1870-44D2-BA0A-F318A9527B27Q42566375-31529617-205C-4DC9-94EA-176913C6EAD0Q47953015-F0180C1C-82D2-4AE3-A410-0CC865758D99
P2860
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 13 March 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@en
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@nl
type
label
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@en
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@nl
prefLabel
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@en
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@nl
P2093
P2860
P1476
Mechanism of ATP-driven PCNA clamp loading by S. cerevisiae RFC.
@en
P2093
Manju M Hingorani
Miho Sakato
Mikhail K Levin
Siying Chen
Yayan Zhou
P2860
P304
P356
10.1016/J.JMB.2009.03.014
P407
P577
2009-03-13T00:00:00Z