The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
about
Clamp loader ATPases and the evolution of DNA replication machinery.Replisome Assembly at Bacterial Chromosomes and Iteron PlasmidsThe RFC clamp loader: structure and functionCoordinated DNA Replication by the Bacteriophage T4 ReplisomeStructure of the eukaryotic replicative CMG helicase suggests a pumpjack motion for translocationAnalysis of the role of PCNA-DNA contacts during clamp loadingStructure of the SSB-DNA polymerase III interface and its role in DNA replicationDNA stretching by bacterial initiators promotes replication origin openingThe Escherichia coli Clamp Loader Can Actively Pry Open the -Sliding ClampHow a DNA Polymerase Clamp Loader Opens a Sliding ClampStructure of the PolIIIα-τc-DNA Complex Suggests an Atomic Model of the ReplisomeInsights into the structure and assembly of the Bacillus subtilis clamp-loader complex and its interaction with the replicative helicaseElements in nucleotide sensing and hydrolysis of the AAA+ disaggregation machine ClpB: a structure-based mechanistic dissection of a molecular motorA proposal: Evolution of PCNA's role as a marker of newly replicated DNAStructural basis of human PCNA sliding on DNA.Strand displacement by DNA polymerase III occurs through a tau-psi-chi link to single-stranded DNA-binding protein coating the lagging strand templateProcessivity factor of DNA polymerase and its expanding role in normal and translesion DNA synthesisEssential biological processes of an emerging pathogen: DNA replication, transcription, and cell division in Acinetobacter sppStoichiometry and architecture of active DNA replication machinery in Escherichia coli.Characterization of the χψ subcomplex of Pseudomonas aeruginosa DNA polymerase III.Only one ATP-binding DnaX subunit is required for initiation complex formation by the Escherichia coli DNA polymerase III holoenzymePolymerase chaperoning and multiple ATPase sites enable the E. coli DNA polymerase III holoenzyme to rapidly form initiation complexes.The interplay of primer-template DNA phosphorylation status and single-stranded DNA binding proteins in directing clamp loaders to the appropriate polarity of DNA.Dynamic and static components power unfolding in topologically closed rings of a AAA+ proteolytic machine.ssb gene duplication restores the viability of ΔholC and ΔholD Escherichia coli mutantsImpact of individual proliferating cell nuclear antigen-DNA contacts on clamp loading and function on DNA.Reverse-chaperoning activity of an AAA+ protein.Loading dynamics of a sliding DNA clamp.Crystal structure of the eukaryotic origin recognition complex.Bacterial replicases and related polymerasesReplication factor C is a more effective proliferating cell nuclear antigen (PCNA) opener than the checkpoint clamp loader, Rad24-RFC.A central swivel point in the RFC clamp loader controls PCNA opening and loading on DNAArchitecture and conservation of the bacterial DNA replication machinery, an underexploited drug target.Dynamics of Open DNA Sliding Clamps.Mutations Affecting Potassium Import Restore the Viability of the Escherichia coli DNA Polymerase III holD MutantATP binding and hydrolysis-driven rate-determining events in the RFC-catalyzed PCNA clamp loading reactionSolution study of the Escherichia coli DNA polymerase III clamp loader reveals the location of the dynamic ψχ heterodimerThe β sliding clamp closes around DNA prior to release by the Escherichia coli clamp loader γ complexStepwise assembly of the human replicative polymerase holoenzyme.The bacterial DnaC helicase loader is a DnaB ring breaker.
P2860
Q21245381-A78F7456-EB44-4637-8E99-AF19511EE710Q26738704-ED6F0420-17DF-4147-9015-25013FBBEDA3Q26825605-4DAC8CED-2116-40F1-874D-C62E7ADF9E60Q26991929-3F50FE76-4515-4415-980B-3E904905EB2EQ27310160-83D72236-E0AE-4ED4-A48A-6C0C9FF08514Q27659293-C39F46AE-CE5E-4D11-B3BB-D40CE63708E2Q27671847-FD6BD2B6-56EF-4CC5-ABC9-C18C0CBC50F4Q27674672-606E534C-3FD6-455C-B338-BB5B8FC05394Q27674727-1E1899F0-A9F3-41DF-AC48-4B8D42928907Q27676381-97629AE3-8CE6-4F8C-9057-4A818CC3B376Q27676744-F726A27D-750C-417A-A06A-A6605BAEA49AQ27677022-14007AA5-396E-48D0-B75C-92655360B320Q27681774-90100EE6-03B3-4E26-B6EF-161AC7A5907FQ28082955-FED84F55-B784-442E-BA5F-2DA5C1E07AC7Q30834894-B95725DA-392E-4CE0-878E-49CA63C9167AQ33553683-655E64A7-54C7-4840-9751-B40932180CF1Q33756104-F656EF57-21B6-4D38-8BBA-0A9AF0EE794EQ33909111-86958B32-CBEE-490B-9CE4-982E61560833Q34022163-3B3A3D3C-2B2E-4864-9D7F-A0002AF15B31Q34033954-079BB28E-6463-4F5F-9992-1B0483B9A7D7Q34121450-C98194EA-DE60-4511-83B6-37412A9DD719Q34206265-3997AA54-ED53-41A3-BCD1-6024B4CB18BFQ34249678-4B47FB56-C112-469B-B191-42DD962174FEQ34273097-5A42E36F-2DAD-4471-9884-678FF2413AB1Q34350939-06CAD1CB-31F0-4C4C-9CF6-AEC29DDA8CEAQ34383645-68759FFF-471E-41EB-83C1-DCBF74FCC3D5Q34594659-626BAB32-C365-4F44-8196-96E3E0059942Q35061085-0C66B6D3-E151-44F5-8494-5D18E144DABCQ35202495-357F2DB7-991B-478F-82F1-67B27C14F256Q35308181-AA5DE5CE-B023-4B55-97EC-A9FBFCB9FDBDQ35694079-58287122-066D-432C-87C2-7876EDDEC275Q35718144-D69811C6-581D-4AE0-89C6-CAD21CF95031Q35791501-12950134-A86A-4E11-886B-2778BF7A1DB2Q36009265-1BD86398-DA59-415E-8453-495CE14D856DQ36046517-1040C08C-8355-4065-83A3-C98F5F71F8D1Q36218801-221DBC8E-2F80-4414-A759-A7249B97F3FAQ36459026-5926266A-4960-4BFF-8EBC-DD5CC4FC18EDQ36526276-97C616DF-888E-475E-9A67-CEA97BC3C607Q36733760-80D1FCF0-8C37-4A71-8823-E9D85B5CE127Q36895278-C6B840CD-E1DD-4902-AFD7-08E304E1EDC2
P2860
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
description
2009 nî lūn-bûn
@nan
2009 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@ast
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@en
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@nl
type
label
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@ast
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@en
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@nl
prefLabel
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@ast
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@en
The Mechanism of ATP-Dependent Primer-Template Recognition by a Clamp Loader Complex
@nl
P2093
P2860
P50
P3181
P1433
P1476
The mechanism of ATP-dependent primer-template recognition by a clamp loader complex
@en
P2093
Brian A Kelch
Debora L Makino
Eric R Goedken
John Kuriyan
Kyle R Simonetta
Steven L Kazmirski
P2860
P304
P3181
P356
10.1016/J.CELL.2009.03.044
P407
P577
2009-05-01T00:00:00Z