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Molecular basis for damage recognition and verification by XPC-RAD23B and TFIIH in nucleotide excision repair

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Title
Molecular basis for damage recognition and verification by XPC-RAD23B and TFIIH in nucleotide excision repair
Author(s)
Hong Mu; Nicholas E. Geacintov; Suse Broyde; Jung-Eun Yeo; Orlando D. Schärer
Publication Date
2018-11
Journal
DNA REPAIR, v.71, no., pp.33 - 42
Publisher
ELSEVIER SCIENCE BV
Abstract
Global genome nucleotide excision repair (GG-NER) is the main pathway for the removal of bulky lesions from DNA and is characterized by an extraordinarily wide substrate specificity. Remarkably, the efficiency of lesion removal varies dramatically and certain lesions escape repair altogether and are therefore associated with high levels of mutagenicity. Central to the multistep mechanism of damage recognition in NER is the sensing of lesion induced thermodynamic and structural alterations of DNA by the XPC-RAD23B protein and the verification of the damage by the transcription/repair factor TFIIH. Additional factors contribute to the process: UV-DDB, for the recognition of certain UV-induced lesions in particular in the context of chromatin, while the XPA protein is believed to have a role in damage verification and NER complex assembly. Here we consider the molecular mechanisms that determine repair efficiency in GG-NER based on recent structural, computational, biochemical, cellular and single molecule studies of XPC-RAD23B and its yeast ortholog Rad4. We discuss how the actions of XPC-RAD23B are integrated with those of other NER proteins and, based on recent high-resolution structures of TFIIH, present a structural model of how XPC-RAD23B and TFIIH cooperate in damage recognition and verification. © 2018 Elsevier B.V. All rights reserved
URI
https://pr.ibs.re.kr/handle/8788114/5323
ISSN
1568-7864
Appears in Collections:
Center for Genomic Integrity(유전체 항상성 연구단) > Journal Papers (저널논문)
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