UmuD and RecA directly modulate the mutagenic potential of the Y family DNA polymerase DinB. - Wikidata - awgldk - TriplyDB

UmuD and RecA directly modulate the mutagenic potential of the Y family DNA polymerase DinB.

UmuD and RecA directly modulate the mutagenic potential of the Y family DNA polymerase DinB.

http://www.wikidata.org/entity/Q41887546

about

Eukaryotic translesion polymerases and their roles and regulation in DNA damage tolerance Culture history and population heterogeneity as determinants of bacterial adaptation: the adaptomics of a single environmental transition Three Residues of the Interdomain Linker Determine the Conformation and Single-base Deletion Fidelity of Y-family Translesion Polymerases Separation of recombination and SOS response in Escherichia coli RecA suggests LexA interaction sites An active site aromatic triad in Escherichia coli DNA Pol IV coordinates cell survival and mutagenesis in different DNA damaging agents A Genetic Selection for dinB Mutants Reveals an Interaction between DNA Polymerase IV and the Replicative Polymerase That Is Required for Translesion Synthesis Conformational dynamics of the Escherichia coli DNA polymerase manager proteins UmuD and UmuD'.UmuD(2) inhibits a non-covalent step during DinB-mediated template slippage on homopolymeric nucleotide runs.Whither the replisome: emerging perspectives on the dynamic nature of the DNA replication machinery.Genetic requirement for mutagenesis of the G[8,5-Me]T cross-link in Escherichia coli: DNA polymerases IV and V compete for error-prone bypass.The unusual UBZ domain of Saccharomyces cerevisiae polymerase η The SOS Regulatory Network.Translesion DNA polymerases The SMC-like protein complex SbcCD enhances DNA polymerase IV-dependent spontaneous mutation in Escherichia coli Translesion DNA Synthesis.The dimeric SOS mutagenesis protein UmuD is active as a monomer Escherichia coli Rep DNA helicase and error-prone DNA polymerase IV interact physically and functionally (5'S)-8,5'-cyclo-2'-deoxyguanosine is a strong block to replication, a potent pol V-dependent mutagenic lesion, and is inefficiently repaired in Escherichia coli Recombinase and translesion DNA polymerase decrease the speed of replication fork progression during the DNA damage response in Escherichia coli cells.Efficient extension of slipped DNA intermediates by DinB is required to escape primer template realignment by DnaQ.Escherichia coli nucleoside diphosphate kinase mutants depend on translesion DNA synthesis to prevent mutagenesis.Interactions and Localization of Escherichia coli Error-Prone DNA Polymerase IV after DNA Damage.Diverse responses to UV light exposure in Acinetobacter include the capacity for DNA damage-induced mutagenesis in the opportunistic pathogens Acinetobacter baumannii and Acinetobacter ursingii Selective disruption of the DNA polymerase III α-β complex by the umuD gene products.Altering the N-terminal arms of the polymerase manager protein UmuD modulates protein interactions Regulation of Escherichia coli SOS mutagenesis by dimeric intrinsically disordered umuD gene products.Antibiotic resistance acquired through a DNA damage-inducible response in Acinetobacter baumannii.A single residue unique to DinB-like proteins limits formation of the polymerase IV multiprotein complex in Escherichia coli.Low-fidelity DNA synthesis by human DNA polymerase theta.RecA acts as a switch to regulate polymerase occupancy in a moving replication fork.Mutations for Worse or Better: Low-Fidelity DNA Synthesis by SOS DNA Polymerase V Is a Tightly Regulated Double-Edged Sword Preferential D-loop extension by a translesion DNA polymerase underlies error-prone recombination.Translesion DNA polymerases remodel the replisome and alter the speed of the replicative helicase.DinB upregulation is the sole role of the SOS response in stress-induced mutagenesis in Escherichia coli.Polymerase manager protein UmuD directly regulates Escherichia coli DNA polymerase III α binding to ssDNA.A global view of antibiotic resistance.Characterization of novel alleles of the Escherichia coli umuDC genes identifies additional interaction sites of UmuC with the beta clamp.DNA polymerases are error-prone at RecA-mediated recombination intermediates.A DinB variant reveals diverse physiological consequences of incomplete TLS extension by a Y-family DNA polymerase.Multiple strategies for translesion synthesis in bacteria

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P2860

UmuD and RecA directly modulate the mutagenic potential of the Y family DNA polymerase DinB.

http://www.wikidata.org/entity/Q41887546

description

2007 nî lūn-bûn

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2007年の論文

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2007年論文

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2007年论文

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2007年论文

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2007年论文

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name

UmuD and RecA directly modulat ...... Y family DNA polymerase DinB.

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type

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UmuD and RecA directly modulat ...... Y family DNA polymerase DinB.

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prefLabel

UmuD and RecA directly modulat ...... Y family DNA polymerase DinB.

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J.MOLCEL.2007.10.025

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P1476

UmuD and RecA directly modulat ...... Y family DNA polymerase DinB.

@en

P2093

Graham C Walker

http://www.w3.org/2001/XMLSchema#string

Sharotka M Simon

http://www.w3.org/2001/XMLSchema#string

Valentin Ilyin

http://www.w3.org/2001/XMLSchema#string

Veronica G Godoy

http://www.w3.org/2001/XMLSchema#string

P2860

The processivity factor beta controls DNA polymerase IV traffic during spontaneous mutagenesis and translesion synthesis in vivo

Multiple pathways for SOS-induced mutagenesis in Escherichia coli: an overexpression of dinB/dinP results in strongly enhancing mutagenesis in the absence of any exogenous treatment to damage DNA

Managing DNA polymerases: coordinating DNA replication, DNA repair, and DNA recombination

Crystal structure of a Y-family DNA polymerase in action: a mechanism for error-prone and lesion-bypass replication

Crystal structure of a DinB family error-prone DNA polymerase from Sulfolobus solfataricus

Structural basis for recruitment of translesion DNA polymerase Pol IV/DinB to the -clamp

The structure of the E. coli recA protein monomer and polymer

The Y-family of DNA polymerases

CRASP: a program for analysis of coordinated substitutions in multiple alignments of protein sequences.

The SPOT-synthesis technique. Synthetic peptide arrays on membrane supports--principles and applications.

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1058-1070

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6

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28

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Daniel F Jarosz

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5690303

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18158902

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2265384

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