Requirements for the interaction of mouse Polkappa with ubiquitin and its biological significance
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Spartan/C1orf124 is important to prevent UV-induced mutagenesisEukaryotic translesion polymerases and their roles and regulation in DNA damage toleranceThe Regulation of DNA Damage Tolerance by Ubiquitin and Ubiquitin-Like ModifiersRole of DNA polymerase κ in the maintenance of genomic stabilityUnconventional Ubiquitin Recognition by the Ubiquitin-Binding Motif within the Y Family DNA Polymerases ι and Rev1Regulation of translesion DNA synthesis: Posttranslational modification of lysine residues in key proteinsRegulation of proliferating cell nuclear antigen ubiquitination in mammalian cells.Processivity factor of DNA polymerase and its expanding role in normal and translesion DNA synthesisLysine residue 185 of Rad1 is a topological but not a functional counterpart of lysine residue 164 of PCNA.Parkin regulates translesion DNA synthesis in response to UV radiationRAD18-dependent recruitment of SNM1A to DNA repair complexes by a ubiquitin-binding zinc finger.Role of the ubiquitin-binding domain of Polη in Rad18-independent translesion DNA synthesis in human cell extracts.Regulation of DNA cross-link repair by the Fanconi anemia/BRCA pathwayMouse DNA polymerase kappa has a functional role in the repair of DNA strand breaksStructural basis for ubiquitin recognition by ubiquitin-binding zinc finger of FAAP20.Dysregulation of DNA polymerase κ recruitment to replication forks results in genomic instability.Kynurenine Signaling Increases DNA Polymerase Kappa Expression and Promotes Genomic Instability in Glioblastoma Cells.Dysregulation of mitochondrial calcium signaling and superoxide flashes cause mitochondrial genomic DNA damage in Huntington disease.Replication-independent repair of DNA interstrand crosslinksMismatch repair protein MSH2 regulates translesion DNA synthesis following exposure of cells to UV radiation.Histone tails: Directing the chromatin response to DNA damageUbiquitin-family modifications in the replication of DNA damage.Decoding ubiquitin for mitosis.The Fanconi anemia ID2 complex: dueling saxes at the crossroads.Translesion Synthesis DNA Polymerase Kappa Is Indispensable for DNA Repair Synthesis in Cisplatin Exposed Dorsal Root Ganglion Neurons.Maintenance of Genome Integrity: How Mammalian Cells Orchestrate Genome Duplication by Coordinating Replicative and Specialized DNA Polymerases.Aberrant Kynurenine Signaling Modulates DNA Replication Stress Factors and Promotes Genomic Instability in Gliomas.DNA damage tolerance: when it's OK to make mistakesRoles of PCNA ubiquitination and TLS polymerases κ and η in the bypass of methyl methanesulfonate-induced DNA damage.The translesion DNA polymerases Pol ζ and Rev1 are activated independently of PCNA ubiquitination upon UV radiation in mutants of DNA polymerase δ.Maneuvers on PCNA Rings during DNA Replication and Repair
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Requirements for the interaction of mouse Polkappa with ubiquitin and its biological significance
description
article publié dans la revue scientifique Journal of Biological Chemistry
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im Februar 2008 veröffentlichter wissenschaftlicher Artikel
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scientific article published in Journal of Biological Chemistry
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wetenschappelijk artikel
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наукова стаття, опублікована в лютому 2008
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name
Requirements for the interacti ...... nd its biological significance
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Requirements for the interacti ...... nd its biological significance
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type
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Requirements for the interacti ...... nd its biological significance
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Requirements for the interacti ...... nd its biological significance
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Requirements for the interacti ...... nd its biological significance
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Requirements for the interacti ...... nd its biological significance
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P2093
P2860
P356
P1476
Requirements for the interacti ...... nd its biological significance
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P2093
Caixia Guo
Errol C Friedberg
Tie-Shan Tang
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P304
P356
10.1074/JBC.M709275200
P407
P577
2008-02-22T00:00:00Z