review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Robert Glanville Lloyd | Q21165634 |
P2093 | author name string | Qin Wen | |
Geoffrey S Briggs | |||
Akeel A Mahdi | |||
Geoffrey R Weller | |||
P2860 | cites work | The hMre11/hRad50 protein complex and Nijmegen breakage syndrome: linkage of double-strand break repair to the cellular DNA damage response | Q24316950 |
Holliday junction resolution in human cells: two junction endonucleases with distinct substrate specificities | Q24534960 | ||
Multiple pathways of recombination induced by double-strand breaks in Saccharomyces cerevisiae | Q24548535 | ||
The Bloom's syndrome gene product promotes branch migration of holliday junctions | Q24674127 | ||
Structural analysis of DNA replication fork reversal by RecG | Q27635329 | ||
Crystal structure of E.coli RuvA with bound DNA Holliday junction at 6 A resolution | Q27758823 | ||
SWISS-MODEL and the Swiss-PdbViewer: an environment for comparative protein modeling | Q27860614 | ||
SGS1, the Saccharomyces cerevisiae homologue of BLM and WRN, suppresses genome instability and homeologous recombination | Q27935480 | ||
Functional overlap between Sgs1-Top3 and the Mms4-Mus81 endonuclease | Q27935913 | ||
Initiation of genetic recombination and recombination-dependent replication | Q28141289 | ||
Replication fork pausing and recombination or "gimme a break" | Q28142854 | ||
A splicing mutation affecting expression of ataxia-telangiectasia and Rad3-related protein (ATR) results in Seckel syndrome | Q28183834 | ||
Differential timing and control of noncrossover and crossover recombination during meiosis | Q28207440 | ||
Fork reversal and ssDNA accumulation at stalled replication forks owing to checkpoint defects | Q28216078 | ||
Cancer susceptibility and the functions of BRCA1 and BRCA2 | Q28217784 | ||
Quality control by DNA repair | Q28608962 | ||
Regulation of DNA replication fork progression through damaged DNA by the Mec1/Rad53 checkpoint | Q29614219 | ||
The importance of repairing stalled replication forks | Q29614220 | ||
An efficient recombination system for chromosome engineering in Escherichia coli | Q29615038 | ||
Role of RAD52 epistasis group genes in homologous recombination and double-strand break repair | Q29618204 | ||
Mus81-Eme1 are essential components of a Holliday junction resolvase | Q29619843 | ||
Werner's syndrome protein (WRN) migrates Holliday junctions and co-localizes with RPA upon replication arrest | Q30983796 | ||
Defending genome integrity during DNA replication: a proposed role for RecQ family helicases | Q33666386 | ||
Role of PriA in replication fork reactivation in Escherichia coli | Q33805205 | ||
Replication fork arrest and DNA recombination | Q33885416 | ||
PriA-directed replication fork restart in Escherichia coli | Q33885421 | ||
Links between replication, recombination and genome instability in eukaryotes | Q33885431 | ||
ATP-dependent resolution of R-loops at the ColE1 replication origin by Escherichia coli RecG protein, a Holliday junction-specific helicase | Q33885962 | ||
Functional interactions between the holliday junction resolvase and the branch migration motor of Escherichia coli. | Q33888542 | ||
Recombinational repair and restart of damaged replication forks. | Q33962242 | ||
Opposing roles of the holliday junction processing systems of Escherichia coli in recombination-dependent adaptive mutation | Q33966750 | ||
E. coli Transcription repair coupling factor (Mfd protein) rescues arrested complexes by promoting forward translocation | Q34135671 | ||
Impairment of lagging strand synthesis triggers the formation of a RuvABC substrate at replication forks | Q34271071 | ||
Circles: the replication-recombination-chromosome segregation connection | Q34311628 | ||
Participation of recombination proteins in rescue of arrested replication forks in UV-irradiated Escherichia coli need not involve recombination | Q34311635 | ||
Chromosome segregation | Q34455319 | ||
Multiple genetic pathways for restarting DNA replication forks in Escherichia coli K-12. | Q34609619 | ||
Specialized DNA polymerases, cellular survival, and the genesis of mutations | Q34662609 | ||
The bacterial RecA protein and the recombinational DNA repair of stalled replication forks | Q34667410 | ||
Genome stability and the processing of damaged replication forks by RecG. | Q34762160 | ||
Interfaces between the detection, signaling, and repair of DNA damage | Q34762844 | ||
When machines get stuck--obstructed RNA polymerase II: displacement, degradation or suicide | Q34811347 | ||
Recombinational rescue of the stalled DNA replication fork: a model based on analysis of an Escherichia coli strain with a chromosome region difficult to replicate | Q35579037 | ||
Replication fork assembly at recombination intermediates is required for bacterial growth | Q36443290 | ||
RecA protein promotes the regression of stalled replication forks in vitro | Q37092074 | ||
Rescue of stalled replication forks by RecG: simultaneous translocation on the leading and lagging strand templates supports an active DNA unwinding model of fork reversal and Holliday junction formation | Q37092701 | ||
Formation of Holliday junctions by regression of nascent DNA in intermediates containing stalled replication forks: RecG stimulates regression even when the DNA is negatively supercoiled | Q37093000 | ||
Instability of repetitive DNA sequences: the role of replication in multiple mechanisms | Q37096065 | ||
Interactions between RuvA and RuvC at Holliday junctions: inhibition of junction cleavage and formation of a RuvA-RuvC-DNA complex. | Q38350438 | ||
A model for dsDNA translocation revealed by a structural motif common to RecG and Mfd proteins | Q39698916 | ||
The RdgC protein of Escherichia coli binds DNA and counters a toxic effect of RecFOR in strains lacking the replication restart protein PriA. | Q39698943 | ||
DNA binding and helicase domains of the Escherichia coli recombination protein RecG. | Q39721275 | ||
The RuvABC proteins and Holliday junction processing in Escherichia coli | Q39840417 | ||
Modulation of recombination and DNA repair by the RecG and PriA helicases of Escherichia coli K-12. | Q39843576 | ||
Versatile insertion plasmids for targeted genome manipulations in bacteria: isolation, deletion, and rescue of the pathogenicity island LEE of the Escherichia coli O157:H7 genome | Q39846433 | ||
Resolution of Holliday intermediates in recombination and DNA repair: indirect suppression of ruvA, ruvB, and ruvC mutations. | Q39929442 | ||
Collapse and repair of replication forks in Escherichia coli | Q40416038 | ||
Long DNA palindromes, cruciform structures, genetic instability and secondary structure repair | Q40582078 | ||
Branch migration of three-strand recombination intermediates by RecG, a possible pathway for securing exchanges initiated by 3′-tailed duplex DNA | Q40788775 | ||
Dissociation of synthetic Holliday junctions by E. coli RecG protein. | Q40871651 | ||
Recombination by replication | Q40996441 | ||
The Croonian Lecture, 1996: endogenous damage to DNA. | Q41266659 | ||
Processing of recombination intermediates by the RuvABC proteins | Q41689455 | ||
Evidence for two mechanisms of palindrome-stimulated deletion in Escherichia coli: single-strand annealing and replication slipped mispairing. | Q42132539 | ||
Tandem repeat recombination induced by replication fork defects in Escherichia coli requires a novel factor, RadC. | Q42563012 | ||
Duplex opening by primosome protein PriA for replisome assembly on a recombination intermediate | Q42603020 | ||
Recombination deficient mutants of Escherichia coli K12 that map between thy A and argA. | Q42972353 | ||
DnaB drives DNA branch migration and dislodges proteins while encircling two DNA strands. | Q44199583 | ||
Expansion of DNA repeats in Escherichia coli: effects of recombination and replication functions. | Q54095257 | ||
PriA supports two distinct pathways for replication restart in UV-irradiated Escherichia coli cells. | Q54530429 | ||
DNA damage-induced replication fork regression and processing in Escherichia coli. | Q54531654 | ||
Substrate specificity of RusA resolvase reveals the DNA structures targeted by RuvAB and RecG in vivo. | Q54540761 | ||
Direct rescue of stalled DNA replication forks via the combined action of PriA and RecG helicase activities. | Q54549876 | ||
The DNA replication protein PriA and the recombination protein RecG bind D-loops. | Q54562206 | ||
The RecG branch migration protein of Escherichia coli dissociates R-loops. | Q54575363 | ||
Splitting the ATM: distinct repair and checkpoint defects in ataxia–telangiectasia | Q63383725 | ||
PriA mediates DNA replication pathway choice at recombination intermediates | Q64387578 | ||
Control of crossing over | Q64388320 | ||
Quantitation of the involvement of the recA, recB, recC, recF, recJ, recN, lexA, radA, radB, uvrD, and umuC genes in the repair of X-ray-induced DNA double-strand breaks in Escherichia coli | Q64390411 | ||
RecQ and RecJ process blocked replication forks prior to the resumption of replication in UV-irradiated Escherichia coli | Q73253665 | ||
Modulation of RNA polymerase by (p)ppGpp reveals a RecG-dependent mechanism for replication fork progression | Q73707166 | ||
Resolution of holliday junctions by RuvABC prevents dimer formation in rep mutants and UV-irradiated cells | Q74130012 | ||
RuvAB acts at arrested replication forks | Q77550034 | ||
P433 | issue | 1441 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 11 | |
P304 | page(s) | 49-59 | |
P577 | publication date | 2004-01-01 | |
P1433 | published in | Philosophical Transactions of the Royal Society B | Q2153239 |
P1476 | title | Interplay between DNA replication, recombination and repair based on the structure of RecG helicase | |
P478 | volume | 359 |
Q39869214 | 25 years on and no end in sight: a perspective on the role of RecG protein |
Q41479016 | A RepA-like protein from bacteriophage BFK20 is a multifunctional protein with primase, polymerase, NTPase and helicase activities |
Q90452461 | A role for 3' exonucleases at the final stages of chromosome duplication in Escherichia coli |
Q27972570 | A systematic screen to discover and analyze apicoplast proteins identifies a conserved and essential protein import factor |
Q39769826 | Cellular location and activity of Escherichia coli RecG proteins shed light on the function of its structurally unresolved C-terminus |
Q37168320 | Characterization of the ATPase activity of RecG and RuvAB proteins on model fork structures reveals insight into stalled DNA replication fork repair |
Q41901200 | Characterization of the ATPase activity of the Escherichia coli RecG protein reveals that the preferred cofactor is negatively supercoiled DNA. |
Q38243813 | Chromosomal islands of Streptococcus pyogenes and related streptococci: molecular switches for survival and virulence |
Q57753081 | Chromosomal over-replication in Escherichia coli recG cells is triggered by replication fork fusion and amplified if replichore symmetry is disturbed |
Q45107867 | Cooperation of the N-terminal Helicase and C-terminal endonuclease activities of Archaeal Hef protein in processing stalled replication forks |
Q40458920 | DNA Helicases. |
Q54491835 | DNA binding by the substrate specificity (wedge) domain of RecG helicase suggests a role in processivity. |
Q40310719 | Different genome stability proteins underpin primed and naïve adaptation in E. coli CRISPR-Cas immunity. |
Q34461369 | Escherichia coli RecG functionally suppresses human Bloom syndrome phenotypes |
Q46085410 | Evidence for the role of Mycobacterium tuberculosis RecG helicase in DNA repair and recombination |
Q47285321 | Gp41, a superfamily SF2 helicase from bacteriophage BFK20. |
Q93606419 | Introduction |
Q41867944 | Irc3 is a mitochondrial DNA branch migration enzyme |
Q27009515 | Microbial antigenic variation mediated by homologous DNA recombination |
Q33936256 | Observing spontaneous branch migration of Holliday junctions one step at a time |
Q40573315 | RECA plays a dual role in the maintenance of chloroplast genome stability in Physcomitrella patens. |
Q35577068 | RECG maintains plastid and mitochondrial genome stability by suppressing extensive recombination between short dispersed repeats |
Q39117161 | RecG controls DNA amplification at double-strand breaks and arrested replication forks |
Q37014705 | RecG interacts directly with SSB: implications for stalled replication fork regression |
Q33759205 | RecQ-dependent death-by-recombination in cells lacking RecG and UvrD |
Q24657500 | Reconstitution of initial steps of dsDNA break repair by the RecF pathway of E. coli |
Q35839032 | Replication forks stalled at ultraviolet lesions are rescued via RecA and RuvABC protein-catalyzed disintegration in Escherichia coli |
Q79661973 | SSB as an organizer/mobilizer of genome maintenance complexes |
Q36215504 | Screening Helicobacter pylori genes induced during infection of mouse stomachs |
Q33644920 | Single-stranded heteroduplex intermediates in lambda Red homologous recombination |
Q42277897 | Structural and Functional Characterization of RecG Helicase under Dilute and Molecular Crowding Conditions. |
Q41996473 | The Escherichia coli histone-like protein HU has a role in stationary phase adaptive mutation |
Q48120447 | The RECG1 DNA Translocase Is a Key Factor in Recombination Surveillance, Repair, and Segregation of the Mitochondrial DNA in Arabidopsis. |
Q42369904 | The archaeal topoisomerase reverse gyrase is a helix-destabilizing protein that unwinds four-way DNA junctions |
Q36168624 | The phage T4 protein UvsW drives Holliday junction branch migration. |
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