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DNA RepairRec A RecombinasesRecombination, GeneticRad51 RecombinaseRecombinational DNA RepairDNA, Single-StrandedDNA HelicasesDNA DamageDNA-Binding ProteinsMutationEscherichia coliDNA Repair EnzymesRad52 DNA Repair and Recombination ProteinUltraviolet RaysDNA Breaks, Double-StrandedBase SequenceEndodeoxyribonucleasesMolecular Sequence DataExodeoxyribonucleasesDNAMethyl MethanesulfonateDNA ReplicationGene ConversionDNA, FungalEndonucleasesSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsExodeoxyribonuclease VSOS Response (Genetics)DNA GlycosylasesGamma RaysCrossing Over, GeneticGenomic InstabilityNuclear ProteinsSister Chromatid ExchangeEscherichia coli ProteinsHomologous RecombinationRadiation TolerancePlasmidsModels, GeneticMutagensDNA-(Apurinic or Apyrimidinic Site) LyaseAntigens, NuclearCell Cycle ProteinsXeroderma PigmentosumDNA, BacterialDNA Mismatch RepairFungal ProteinsXeroderma Pigmentosum Group D ProteinDose-Response Relationship, RadiationRecQ HelicasesAdenosine TriphosphatasesAmino Acid SequenceXeroderma Pigmentosum Group A ProteinDNA End-Joining RepairRadiation, IonizingBacterial ProteinsPyrimidine DimersMutagenesisBase Pair MismatchO(6)-Methylguanine-DNA MethyltransferaseReplication Protein AChromosomes, FungalTelomereBRCA2 ProteinFactor For Inversion Stimulation ProteinComet AssayCell LineAllelesCloning, MolecularUstilagoChromosome MappingMitomycinGenes, FungalX-RaysN-Glycosyl HydrolasesRepetitive Sequences, Nucleic AcidMeiosisPoly(ADP-ribose) PolymerasesDNA LigasesCell CycleProtein BindingGenes, BacterialChromosome InversionChromosomesHistonesGene DeletionSequence Homology, Nucleic AcidCrosses, GeneticDNA Repair-Deficiency DisordersDNA, CruciformCell SurvivalExonucleasesMutS Homolog 2 ProteinGenetic Complementation TestRestriction MappingPhenotypeDeinococcusTransformation, GeneticGuanine

Chromatin dynamics during repair of chromosomal DNA double-strand breaks. (1/134)

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Telomere dysfunction and chromosome instability. (2/134)

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RSC facilitates Rad59-dependent homologous recombination between sister chromatids by promoting cohesin loading at DNA double-strand breaks. (3/134)

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Subunit interface residues F129 and H294 of human RAD51 are essential for recombinase function. (4/134)

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Berberine radiosensitizes human esophageal cancer cells by downregulating homologous recombination repair protein RAD51. (5/134)

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Processing of homologous recombination repair intermediates by the Sgs1-Top3-Rmi1 and Mus81-Mms4 complexes. (6/134)

Homologous recombination repair (HRR) is an evolutionarily conserved cellular process that is important for the maintenance of genome stability during S phase. Inactivation of the Saccharomyces cerevisiae Sgs1-Top3-Rmi1 complex leads to the accumulation of unprocessed, X-shaped HRR intermediates (X structures) following replicative stress. Further characterization of these X structures may reveal why loss of BLM (the human Sgs1 ortholog) leads to the human cancer predisposition disorder, Bloom syndrome. In two recent complementary studies, we examined the nature of the X structures arising in yeast strains lacking Sgs1, Top3 or Rmi1 by identifying which proteins could process these structures in vivo. We revealed that the unprocessed X structures that accumulate in these strains could be resolved by the ectopic overexpression of two different Holliday junction (HJ) resolvases, and that the endogenous Mus81-Mms4 endonuclease could also remove them, albeit slowly. In this review, we discuss the implications of these results and review the putative roles for the Sgs1-Top3-Rmi1 and Mus81-Mms4 complexes in the processing of various types of HRR intermediates during S phase.  (+info)

Distinct Cdk1 requirements during single-strand annealing, noncrossover, and crossover recombination. (7/134)

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REV1 and polymerase zeta facilitate homologous recombination repair. (8/134)

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