Sequential Assembly of the Nucleotide Excision Repair Factors In Vivo

Volker, Marcel; Moné, Martijn J.; Karmakar, Parimal; Hoffen, Anneke van; Schul, Wouter; Vermeulen, Wim; Hoeijmakers, Jan H.J.; Driel, Roel van; Zeeland, A.A. van; Mullenders, Leon H.F.

doi:10.1016/s1097-2765(01)00281-7

Cited by 711 publications

(719 citation statements)

References 43 publications

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“…We have analyzed the spatiotemporal recruitment of all four Pol d subunits to sites of UV damage by their colocalization with CPDs using fluorescence microscopy. We used the technique of irradiation through UV-opaque polycarbonate filters with 5-lm pores [Volker et al, 2001]. These gave rise to macrofoci that were readily observed and also allowed quantitative analysis of the percentage colocalization with CPD damage [Chea et al, 2012].…”

Section: Spatiotemporal Dynamics Of the Recruitment Of Pol D To Dna Dmentioning

confidence: 99%

Regulation of human DNA polymerase delta in the cellular responses to DNA damage

Lee

Zhang

Lin

et al. 2012

Environ and Mol Mutagen

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The p12 subunit of polymerase delta (Pol d) is degraded in response to DNA damage induced by UV, alkylating agents, oxidative, and replication stresses. This leads to the conversion of the Pol d4 holoenzyme to the heterotrimer, Pol d3. We review studies that establish that Pol d3 formation is an event that could have a major impact on cellular processes in genomic surveillance, DNA replication, and DNA repair. p12 degradation is dependent on the apical ataxia telangiectasia and Rad3 related (ATR) kinase and is mediated by the ubiquitin-proteasome system. Pol d3 exhibits properties of an ''antimutator'' polymerase, suggesting that it could contribute to an increased surveillance against mutagenesis, for example, when Pol d carries out bypass synthesis past small base lesions that engage in spurious base pairing. Chromatin immunoprecipitation analysis and examination of the spatiotemporal recruitment of Pol d to sites of DNA damage show that Pol d3 is the primary form of Pol d associated with cyclobutane pyrimidine dimer lesions and therefore should be considered as the operative form of Pol d engaged in DNA repair. We propose a model for the switching of Pol d with translesion polymerases, incorporating the salient features of the recently determined structure of monoubiquitinated proliferating cell nuclear antigen and emphasizing the role of Pol d3. Because of the critical role of Pol d activity in DNA replication and repair, the formation of Pol d3 in response to DNA damage opens the prospect that pleiotropic effects may ensue. This opens the horizons for future exploration of how this novel response to DNA damage contributes to genomic stability. Environ. Mol. Mutagen. 53:683-698, 2012. V V C 2012 Wiley Periodicals, Inc.

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Section: Spatiotemporal Dynamics Of the Recruitment Of Pol D To Dna Dmentioning

confidence: 99%

Regulation of human DNA polymerase delta in the cellular responses to DNA damage

Lee

Zhang

Lin

et al. 2012

Environ and Mol Mutagen

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“…In higher eukaryotes, this sequential reaction is initiated by a versatile DNA damage sensor composed of XPC, Rad23B and centrin-2 [12,13]. XPC is the actual sensor subunit of this initiator complex, whereas Rad23B and centrin-2 exert accessory functions (see section 3).…”

Section: Introductionmentioning

confidence: 99%

Dynamic two-stage mechanism of versatile DNA damage recognition by xeroderma pigmentosum group C protein

Clement

Camenisch

Jia

et al. 2010

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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“…33 GG-NER operates by the sequential assembly of all the proteins involved at sites of DNA damage. [34][35][36] Accordingly, NER proteins diffuse freely trough the cell and are recruited in a defined order to sites of DNA damage and are released again from NER complexes once the damage has been repaired. Current evidence suggests that the XPC/HR23B/centrin-2 protein complex is the initial damage recognition factor in GG-NER (Figure 2) .…”

Section: Discovery and Cloning Of Xpgmentioning

confidence: 99%

“…Current evidence suggests that the XPC/HR23B/centrin-2 protein complex is the initial damage recognition factor in GG-NER (Figure 2) . 35,37,38 XPC then recruits TFIIH to sites of UV lesions, and two helicase subunits XPB and XPD of TFIIH initiate the opening of the DNA around the lesion. XPA, RPA and XPG subsequently join the complex to form a stable open structure and recruitment of ERCC1-XPF by XPA initiates the dual incision of the DNA 5' and 3' to the lesion by ERCC1-XPF and XPG, respectively.…”

Section: Discovery and Cloning Of Xpgmentioning

confidence: 99%

“…XPG interacts tightly with TFIIH and it is the interaction with TFIIH that recruits XPG to NER complexes at sites of UV damage. 30,35,41 Although investigation of the intracellular behavior of XPG suggests that the proteins has a mobility consistent with it being present in monomeric form, 41 some studies have found a tight and perhaps constitutive association of XPG with TFIIH. 42,50 It is currently believed that this constitutive interaction between XPG and TFIIH is important for the additional roles of the protein outside of NER (see below).…”

Section: Discovery and Cloning Of Xpgmentioning

confidence: 99%

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XPG: Its Products and Biological Roles

Schärer

Molecular Mechanisms of Xeroderma Pigmentosum

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Xeroderma pigmetosum patients of the complementation group G are rare. One group of XP-G patients displays a rather mild and typical XP phenotype. Mutations in these patients interfere with the function of XPG in the nucleotide excision repair, where it has a structural role in the assembly of the preincision complex and a catalytic role in making the incision 3' to the damaged site in DNA. Another set of XP-G patient is much more severely affected, displaying combined symptoms of xeroderma pigmentosum and Cockayne syndrome, referred to as XP/CS complex. Although the molecular basis leading to the XP/CS complex has not yet been fully established, current evidence suggests that these patients suffer from a mild defect in transcription in addition to a repair defect. Here, the history of how the XPG gene was discovered, the biochemical properties of the XPG protein, and the molecular defects found in XP-G patients and mouse models are reviewed.

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Sequential Assembly of the Nucleotide Excision Repair Factors In Vivo

Cited by 711 publications

References 43 publications

Regulation of human DNA polymerase delta in the cellular responses to DNA damage

Regulation of human DNA polymerase delta in the cellular responses to DNA damage

Dynamic two-stage mechanism of versatile DNA damage recognition by xeroderma pigmentosum group C protein

XPG: Its Products and Biological Roles

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