RPA involvement in the damage-recognition and incision steps of nucleotide excision repair
about
Nucleotide excision repair is associated with the replisome and its efficiency depends on a direct interaction between XPA and PCNAHuman single-stranded DNA binding proteins are essential for maintaining genomic stabilityFunctional and physical interaction between WRN helicase and human replication protein ANuclear structure in normal and Bloom syndrome cellsRBT1, a novel transcriptional co-activator, binds the second subunit of replication protein ACloning of a human homolog of the yeast nucleotide excision repair gene MMS19 and interaction with transcription repair factor TFIIH via the XPB and XPD helicasesStrong functional interactions of TFIIH with XPC and XPG in human DNA nucleotide excision repair, without a preassembled repairosomeINO80 chromatin remodeling complex promotes the removal of UV lesions by the nucleotide excision repair pathwayPhysical interaction between human RAD52 and RPA is required for homologous recombination in mammalian cellsNucleotide excision repair by mutant xeroderma pigmentosum group A (XPA) proteins with deficiency in interaction with RPAThe evolutionarily conserved zinc finger motif in the largest subunit of human replication protein A is required for DNA replication and mismatch repair but not for nucleotide excision repairMutational analysis of the human nucleotide excision repair gene ERCC1An alternative form of replication protein a expressed in normal human tissues supports DNA repairTFIIH-mediated nucleotide excision repair and initiation of mRNA transcription in an optimized cell-free DNA repair and RNA transcription assayThe role of altered nucleotide excision repair and UVB-induced DNA damage in melanomagenesisERCC4 (XPF) encodes a human nucleotide excision repair protein with eukaryotic recombination homologsAn interaction between the DNA repair factor XPA and replication protein A appears essential for nucleotide excision repairThe human Tim/Tipin complex coordinates an Intra-S checkpoint response to UV that slows replication fork displacementNMR chemical shift and relaxation measurements provide evidence for the coupled folding and binding of the p53 transactivation domainSolution structure of the DNA-binding domain of RPA from Saccharomyces cerevisiae and its interaction with single-stranded DNA and SV40 T antigenRole of the XPA protein in the NER pathway: A perspective on the function of structural disorder in macromolecular assemblyThe Impact of Hedgehog Signaling Pathway on DNA Repair Mechanisms in Human CancerRPA-coated single-stranded DNA as a platform for post-translational modifications in the DNA damage responseWDR76 Co-Localizes with Heterochromatin Related Proteins and Rapidly Responds to DNA DamageInteractions of human nucleotide excision repair protein XPA with DNA and RPA70 Delta C327: chemical shift mapping and 15N NMR relaxation studiesA structure-specific nucleic acid-binding domain conserved among DNA repair proteinsSolution structure of the DNA- and RPA-binding domain of the human repair factor XPAAssessing the requirements for nucleotide excision repair proteins of Saccharomyces cerevisiae in an in vitro system.Rad52 forms ring structures and co-operates with RPA in single-strand DNA annealing.Roles of replication protein-A subunits 2 and 3 in DNA replication fork movement in Saccharomyces cerevisiae.Nucleotide excision repair in yeast is mediated by sequential assembly of repair factors and not by a pre-assembled repairosome.Affinity purification and partial characterization of a yeast multiprotein complex for nucleotide excision repair using histidine-tagged Rad14 protein.Transcription factor TFIIH and DNA endonuclease Rad2 constitute yeast nucleotide excision repair factor 3: implications for nucleotide excision repair and Cockayne syndrome.Characteristics and concepts of dynamic hub proteins in DNA processing machinery from studies of RPAThe RPA32 subunit of human replication protein A contains a single-stranded DNA-binding domainA sequence in the N-terminal region of human uracil-DNA glycosylase with homology to XPA interacts with the C-terminal part of the 34-kDa subunit of replication protein AA multistep damage recognition mechanism for global genomic nucleotide excision repairAssociation between the ERCC5 Asp1104His polymorphism and cancer risk: a meta-analysis.Molecular cloning and structural analysis of the functional mouse genomic XPG geneIn vitro analysis of the zinc-finger motif in human replication protein A
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P2860
RPA involvement in the damage-recognition and incision steps of nucleotide excision repair
description
1995 nî lūn-bûn
@nan
1995 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1995年の論文
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1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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RPA involvement in the damage- ...... of nucleotide excision repair
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10.1038/374566A0
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1995-04-06T00:00:00Z
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1028845699