scholarly article | Q13442814 |
P2093 | author name string | T. Sugiyama | |
S. C. Kowalczykowski | |||
E. M. Zaitseva | |||
P2860 | cites work | Homologous pairing and DNA strand-exchange proteins. | Q45944296 |
Cell-cycle-regulated phosphorylation of DNA replication factor A from human and yeast cells | Q46342912 | ||
Replication factor-A from Saccharomyces cerevisiae is encoded by three essential genes coordinately expressed at S phase | Q48211959 | ||
Effects of Escherichia coli SSB protein on the single-stranded DNA-dependent ATPase activity of Escherichia coli RecA protein. Evidence that SSB protein facilitates the binding of RecA protein to regions of secondary structure within single-stranded | Q54768170 | ||
Similarity of the yeast RAD51 filament to the bacterial RecA filament | Q56937925 | ||
Physical interaction between human RAD52 and RPA is required for homologous recombination in mammalian cells | Q24311394 | ||
Yeast replication factor-A functions in the unwinding of the SV40 origin of DNA replication | Q27930450 | ||
A novel allele of Saccharomyces cerevisiae RFA1 that is deficient in recombination and repair and suppressible by RAD52. | Q27933094 | ||
Rad51 protein involved in repair and recombination in S. cerevisiae is a RecA-like protein | Q27933995 | ||
Catalysis of ATP-dependent homologous DNA pairing and strand exchange by yeast RAD51 protein | Q27937922 | ||
Characterization of DNA-binding and strand-exchange stimulation properties of y-RPA, a yeast single-strand-DNA-binding protein | Q28269358 | ||
DNA strand exchange mediated by a RAD51-ssDNA nucleoprotein filament with polarity opposite to that of RecA | Q29622863 | ||
Relating biochemistry to biology: how the recombinational repair function of RecA protein is manifested in its molecular properties | Q34060917 | ||
Effects of the Escherichia coli SSB protein on the binding of Escherichia coli RecA protein to single-stranded DNA. Demonstration of competitive binding and the lack of a specific protein-protein interaction | Q34172850 | ||
Enzymes and molecular mechanisms of genetic recombination | Q35671065 | ||
Mechanism of the concerted action of recA protein and helix-destabilizing proteins in homologous recombination | Q36259266 | ||
Nucleotide sequence and transcriptional regulation of the yeast recombinational repair gene RAD51 | Q36819579 | ||
Initiation of DNA replication on single-stranded DNA templates catalyzed by purified replication proteins of bacteriophage lambda and Escherichia coli | Q37691290 | ||
Semidominant suppressors of Srs2 helicase mutations of Saccharomyces cerevisiae map in the RAD51 gene, whose sequence predicts a protein with similarities to procaryotic RecA proteins | Q40655478 | ||
The search for the right partner: homologous pairing and DNA strand exchange proteins in eukaryotes | Q40733602 | ||
Interaction of recA protein with single-stranded DNA. Quantitative aspects of binding affinity modulation by nucleotide cofactors | Q43879376 | ||
9 Escherichia coli phage T4 topoisomerase | Q44677395 | ||
P433 | issue | 12 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Saccharomyces cerevisiae | Q719725 |
P304 | page(s) | 7940–7945 | |
P577 | publication date | 1997-03-21 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | A single-stranded DNA-binding protein is needed for efficient presynaptic complex formation by the Saccharomyces cerevisiae Rad51 protein | |
P478 | volume | 272 |
Q52725402 | A Critical Role for Dna2 at Unwound Telomeres. |
Q28115483 | A Dominant Mutation in Human RAD51 Reveals Its Function in DNA Interstrand Crosslink Repair Independent of Homologous Recombination |
Q24299264 | A PP4 phosphatase complex dephosphorylates RPA2 to facilitate DNA repair via homologous recombination |
Q31030721 | A novel allele of fission yeast rad11 that causes defects in DNA repair and telomere length regulation. |
Q78882309 | A novel function of Rad54 protein. Stabilization of the Rad51 nucleoprotein filament |
Q24312943 | A novel nucleic acid-binding protein that interacts with human rad51 recombinase |
Q91620907 | Advances in genome editing through control of DNA repair pathways |
Q38622583 | An Overview of the Molecular Mechanisms of Recombinational DNA Repair |
Q24336962 | An alternative form of replication protein a expressed in normal human tissues supports DNA repair |
Q41911380 | An archaeal RadA paralog influences presynaptic filament formation |
Q37631446 | Archaeal genome guardians give insights into eukaryotic DNA replication and damage response proteins. |
Q27936545 | Assembly of RecA-like recombinases: distinct roles for mediator proteins in mitosis and meiosis |
Q30308670 | BRCA1 modulates ionizing radiation-induced nuclear focus formation by the replication protein A p34 subunit |
Q24812864 | Bacillus subtilis RecU Holliday-junction resolvase modulates RecA activities |
Q33604620 | Biochemistry of Meiotic Recombination: Formation, Processing, and Resolution of Recombination Intermediates |
Q34925302 | Biochemistry of eukaryotic homologous recombination |
Q37470747 | Branch migration during Rad51-promoted strand exchange proceeds in either direction |
Q35972438 | Ca2+ activates human homologous recombination protein Rad51 by modulating its ATPase activity |
Q32063619 | Catalysis of homologous DNA pairing by yeast Rad51 and Rad54 proteins |
Q38290380 | Catalysis of strand annealing by replication protein A derives from its strand melting properties |
Q35164329 | Cell biology of mitotic recombination |
Q38183861 | Cell cycle regulation of homologous recombination in Saccharomyces cerevisiae |
Q30846929 | Characterization of genetic interactions with RFA1: the role of RPA in DNA replication and telomere maintenance. |
Q27937121 | Characterization of strand exchange activity of yeast Rad51 protein |
Q46348708 | Chromosomal rearrangements occur in S. cerevisiae rfa1 mutator mutants due to mutagenic lesions processed by double-strand-break repair |
Q25255863 | Cockayne syndrome group B protein has novel strand annealing and exchange activities. |
Q34491322 | DNA RECOMBINATION. Base triplet stepping by the Rad51/RecA family of recombinases |
Q32062848 | DNA annealing by RAD52 protein is stimulated by specific interaction with the complex of replication protein A and single-stranded DNA |
Q38313497 | DNA double-strand breaks and telomeres play important roles in trypanosoma brucei antigenic variation |
Q29618305 | DNA helicase Srs2 disrupts the Rad51 presynaptic filament |
Q38297794 | DNA pairing and strand exchange by the Escherichia coli RecA and yeast Rad51 proteins without ATP hydrolysis: on the importance of not getting stuck |
Q43168080 | DNA sequence alignment by microhomology sampling during homologous recombination. |
Q24811825 | DNA topoisomerase II interacts with Lim15/Dmc1 in meiosis |
Q64243867 | Dual functions for the ssDNA-binding protein RPA in meiotic recombination |
Q33289766 | Effects of accessory proteins on the bypass of a cis-syn thymine-thymine dimer by Saccharomyces cerevisiae DNA polymerase eta. |
Q44824230 | Effects of tumor-associated mutations on Rad54 functions |
Q42658397 | Evolution of full-length and deleted forms of the mariner-like element, Botmar1, in the Genome of the bumble bee, Bombus terrestris (Hymenoptera: Apidae). |
Q33310471 | Excess single-stranded DNA inhibits meiotic double-strand break repair. |
Q24529074 | Fission yeast rad51 and dmc1, two efficient DNA recombinases forming helical nucleoprotein filaments |
Q27641910 | Full-length archaeal Rad51 structure and mutants: mechanisms for RAD51 assembly and control by BRCA2 |
Q29620205 | Function of yeast Rad52 protein as a mediator between replication protein A and the Rad51 recombinase |
Q30695523 | Functional analysis of the four DNA binding domains of replication protein A. The role of RPA2 in ssDNA binding |
Q27929774 | Functional cross-talk among Rad51, Rad54, and replication protein A in heteroduplex DNA joint formation |
Q33180095 | Functional interactions among yeast Rad51 recombinase, Rad52 mediator, and replication protein A in DNA strand exchange |
Q32068528 | Genetic analysis of yeast RPA1 reveals its multiple functions in DNA metabolism |
Q28579624 | Genetic evidence suggests that Spata22 is required for the maintenance of Rad51 foci in mammalian meiosis |
Q38342363 | Genetic re-engineering of Saccharomyces cerevisiae RAD51 leads to a significant increase in the frequency of gene repair in vivo |
Q34338103 | Genomic integrity and the repair of double-strand DNA breaks |
Q60919861 | Guidelines for DNA recombination and repair studies: Mechanistic assays of DNA repair processes |
Q30857859 | Heteroduplex joint formation by a stoichiometric complex of Rad51 and Rad52 of Saccharomyces cerevisiae |
Q36106937 | Homologous recombination and its regulation |
Q24601150 | Homologous recombination in DNA repair and DNA damage tolerance |
Q42844928 | Homologous recombination is involved in transcription-coupled repair of UV damage in Saccharomyces cerevisiae |
Q24542520 | Homologous recombination: from model organisms to human disease |
Q35548563 | Human DNA helicase B functions in cellular homologous recombination and stimulates Rad51-mediated 5'-3' heteroduplex extension in vitro |
Q38329710 | Human Rad51 protein can form homologous joints in the absence of net strand exchange |
Q31973924 | Identification and characterization of the fourth single-stranded-DNA binding domain of replication protein A |
Q93162093 | In vitro role of Rad54 in Rad51-ssDNA filament-dependent homology search and synaptic complexes formation |
Q27939283 | In vivo assembly and disassembly of Rad51 and Rad52 complexes during double-strand break repair |
Q28190231 | Increased efficiency of transgenic livestock production |
Q27660441 | Insights into the mechanism of Rad51 recombinase from the structure and properties of a filament interface mutant |
Q30431333 | Interaction of Rad51 with ATP and Mg2+ induces a conformational change in Rad51. |
Q24548334 | Interaction of human rad51 recombination protein with single-stranded DNA binding protein, RPA |
Q33360205 | Interaction with RPA is necessary for Rad52 repair center formation and for its mediator activity |
Q24622502 | Interactions between BRCA2 and RAD51 for promoting homologous recombination in Leishmania infantum |
Q38392775 | Loop L1 governs the DNA-binding specificity and order for RecA-catalyzed reactions in homologous recombination and DNA repair. |
Q47652095 | Loss of NEIL3 DNA glycosylase markedly increases replication associated double strand breaks and enhances sensitivity to ATR inhibitor in glioblastoma cells |
Q48256770 | Main steps in DNA double-strand break repair: an introduction to homologous recombination and related processes. |
Q26864428 | Mechanisms and regulation of mitotic recombination in Saccharomyces cerevisiae |
Q35193716 | Mechanochemical regulations of RPA's binding to ssDNA. |
Q24599514 | Mediator function of the human Rad51B-Rad51C complex in Rad51/RPA-catalyzed DNA strand exchange |
Q38684481 | Meiotic Chromosome Association 1 Interacts with TOP3α and Regulates Meiotic Recombination in Rice. |
Q35543795 | Mending the Break: Two DNA Double-Strand Break Repair Machines in Eukaryotes |
Q27930745 | Mgm101 is a Rad52-related protein required for mitochondrial DNA recombination |
Q33321813 | Molecular anatomy of the recombination mediator function of Saccharomyces cerevisiae Rad52. |
Q38305014 | Molecular dissection of interactions between Rad51 and members of the recombination-repair group |
Q36916670 | Mre11-Rad50-Nbs1 is a keystone complex connecting DNA repair machinery, double-strand break signaling, and the chromatin template. |
Q27012760 | Multiple cellular mechanisms prevent chromosomal rearrangements involving repetitive DNA |
Q31078342 | Mutations in yeast Rad51 that partially bypass the requirement for Rad55 and Rad57 in DNA repair by increasing the stability of Rad51-DNA complexes |
Q34657712 | Mystery of DNA repair: the role of the MRN complex and ATM kinase in DNA damage repair |
Q57030324 | Nonfilament-forming RecA dimer catalyzes homologous joint formation |
Q28610023 | Nuclear foci of mammalian recombination proteins are located at single-stranded DNA regions formed after DNA damage |
Q34669076 | Overexpression of Rad51 protein stimulates homologous recombination and increases resistance of mammalian cells to ionizing radiation |
Q36835707 | PCNA is efficiently loaded on the DNA recombination intermediate to modulate polymerase δ, η, and ζ activities. |
Q30921143 | PCNA is required for initiation of recombination-associated DNA synthesis by DNA polymerase delta |
Q34313781 | Pathway choice in DNA double strand break repair: observations of a balancing act. |
Q33834760 | Pathways to meiotic recombination in Arabidopsis thaliana |
Q33200674 | Physical interaction between replication protein A and Rad51 promotes exchange on single-stranded DNA. |
Q37558760 | Pif1 helicase and Polδ promote recombination-coupled DNA synthesis via bubble migration. |
Q27937818 | Promotion of Rad51-dependent D-loop formation by yeast recombination factor Rdh54/Tid1. |
Q37150956 | Proteins involved in meiotic recombination: a role in male infertility? |
Q64388437 | Purification and assays of Saccharomyces cerevisiae homologous recombination proteins |
Q24297031 | Purified human BRCA2 stimulates RAD51-mediated recombination |
Q92932218 | Putting together and taking apart: assembly and disassembly of the Rad51 nucleoprotein filament in DNA repair and genome stability |
Q27676876 | RAD51 Protein ATP Cap Regulates Nucleoprotein Filament Stability |
Q34709121 | RAD51-independent inverted-repeat recombination by a strand-annealing mechanism |
Q34762756 | RAP80-directed tuning of BRCA1 homologous recombination function at ionizing radiation-induced nuclear foci |
Q34740136 | RPA coordinates DNA end resection and prevents formation of DNA hairpins |
Q26777655 | RPA homologs and ssDNA processing during meiotic recombination |
Q93270905 | RPA resolves conflicting activities of accessory proteins during reconstitution of Dmc1-mediated meiotic recombination |
Q34385513 | Rad51 ATP binding but not hydrolysis is required to recruit Rad10 in synthesis-dependent strand annealing sites in S. cerevisiae |
Q36972159 | Rad51 gain-of-function mutants that exhibit high affinity DNA binding cause DNA damage sensitivity in the absence of Srs2. |
Q35197216 | Rad51 recombinase and recombination mediators |
Q30836821 | Rad51 uses one mechanism to drive DNA strand exchange in both directions |
Q28611350 | Rad51/RecA protein families and the associated proteins in eukaryotes |
Q27931495 | Rad52 associates with RPA and functions with rad55 and rad57 to assemble meiotic recombination complexes |
Q27930553 | Rad52 forms ring structures and co-operates with RPA in single-strand DNA annealing |
Q30736645 | Rad52 protein associates with replication protein A (RPA)-single-stranded DNA to accelerate Rad51-mediated displacement of RPA and presynaptic complex formation |
Q31053009 | Rad52 protein has a second stimulatory role in DNA strand exchange that complements replication protein-A function |
Q28260499 | Rad52 protein stimulates DNA strand exchange by Rad51 and replication protein A |
Q33263102 | Rad52-mediated DNA annealing after Rad51-mediated DNA strand exchange promotes second ssDNA capture |
Q45955638 | Rad54 protein exerts diverse modes of ATPase activity on duplex DNA partially and fully covered with Rad51 protein. |
Q46189017 | Rad54 protein is targeted to pairing loci by the Rad51 nucleoprotein filament |
Q37100293 | Rad54 protein stimulates the postsynaptic phase of Rad51 protein-mediated DNA strand exchange |
Q34466769 | RadA protein is an archaeal RecA protein homolog that catalyzes DNA strand exchange |
Q36328990 | Real-time measurements of the nucleation, growth and dissociation of single Rad51-DNA nucleoprotein filaments |
Q28074245 | Reappearance from Obscurity: Mammalian Rad52 in Homologous Recombination |
Q28207059 | RecFOR proteins load RecA protein onto gapped DNA to accelerate DNA strand exchange: a universal step of recombinational repair |
Q33984330 | Recombination factors of Saccharomyces cerevisiae |
Q36143372 | Recombination mediator and Rad51 targeting activities of a human BRCA2 polypeptide. |
Q28776226 | Recombinational crossroads: eukaryotic enzymes and the limits of bacterial precedents |
Q50926962 | Reconstituted System for the Examination of Repair DNA Synthesis in Homologous Recombination. |
Q31151107 | Recruitment of the recombinational repair machinery to a DNA double-strand break in yeast |
Q37175208 | Regulation of Deinococcus radiodurans RecA protein function via modulation of active and inactive nucleoprotein filament states |
Q33615409 | Regulation of double-strand break-induced mammalian homologous recombination by UBL1, a RAD51-interacting protein |
Q33886979 | Regulation of the DNA Damage Response to DSBs by Post-Translational Modifications |
Q27934381 | Remodeling of the Rad51 DNA strand-exchange protein by the Srs2 helicase |
Q33750366 | Repair and consequences of double-strand breaks in DNA. |
Q30667012 | Replication protein A in Pyrococcus furiosus is involved in homologous DNA recombination |
Q30840942 | Requirement for PCNA and RPA in interstrand crosslink-induced DNA synthesis |
Q33701440 | Rgf1p (Rho1p GEF) is required for double-strand break repair in fission yeast |
Q28508150 | Role for the mammalian Swi5-Sfr1 complex in DNA strand break repair through homologous recombination |
Q44816857 | Role of ATP hydrolysis in the antirecombinase function of Saccharomyces cerevisiae Srs2 protein |
Q26773800 | Role of Deubiquitinating Enzymes in DNA Repair |
Q29618204 | Role of RAD52 epistasis group genes in homologous recombination and double-strand break repair |
Q24804289 | Role of Saccharomyces single-stranded DNA-binding protein RPA in the strand invasion step of double-strand break repair |
Q37775588 | Role of homologous recombination in DNA interstrand crosslink repair |
Q36391767 | Role of the Saccharomyces cerevisiae Rad51 paralogs in sister chromatid recombination |
Q33326797 | SSB antagonizes RecX-RecA interaction |
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Q30441264 | Saccharomyces cerevisiae replication protein A binds to single-stranded DNA in multiple salt-dependent modes |
Q28369514 | Sequestration of mammalian Rad51-recombination protein into micronuclei |
Q47224719 | Single-molecule localization microscopy reveals molecular transactions during RAD51 filament assembly at cellular DNA damage sites |
Q28260489 | Stimulation by Rad52 of yeast Rad51-mediated recombination |
Q35829344 | Stimulation of fission yeast and mouse Hop2-Mnd1 of the Dmc1 and Rad51 recombinases |
Q35804759 | Strand pairing by Rad54 and Rad51 is enhanced by chromatin |
Q40387300 | Tailed duplex DNA is the preferred substrate for Rad51 protein-mediated homologous pairing |
Q37875478 | The BRCA1 ubiquitin ligase and homologous recombination repair |
Q45345099 | The BRCA2 homologue Brh2 nucleates RAD51 filament formation at a dsDNA-ssDNA junction |
Q35550606 | The Bacterial RecA Protein as a Motor Protein |
Q44323355 | The C terminus of the Escherichia coli RecA protein modulates the DNA binding competition with single-stranded DNA-binding protein |
Q46561573 | The DNA binding properties of Saccharomyces cerevisiae Rad51 protein |
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Q34134658 | The Rad51 and Dmc1 recombinases: a non-identical twin relationship |
Q32186835 | The Rad51-dependent pairing of long DNA substrates is stabilized by replication protein A. |
Q33959536 | The RecA proteins of Deinococcus radiodurans and Escherichia coli promote DNA strand exchange via inverse pathways |
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