Cryo-EM structure of TFIIH/Rad4–Rad23–Rad33 in damaged DNA opening in nucleotide excision repair

被引:0
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作者
Trevor van Eeuwen
Yoonjung Shim
Hee Jong Kim
Tingting Zhao
Shrabani Basu
Benjamin A. Garcia
Craig D. Kaplan
Jung-Hyun Min
Kenji Murakami
机构
[1] University of Pennsylvania,Department of Biochemistry and Biophysics, Perelman School of Medicine
[2] University of Pennsylvania,Biochemistry and Molecular Biophysics Graduate Group, Perelman School of Medicine
[3] University of Pennsylvania,Penn Center for Genome Integrity, Perelman School of Medicine
[4] Baylor University,Department of Chemistry and Biochemistry
[5] University of Pennsylvania,Epigenetics Institute, Department of Biochemistry and Biophysics, Perelman School of Medicine
[6] University of Pittsburgh,Department of Biological Sciences
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Nature Communications | / 12卷
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摘要
The versatile nucleotide excision repair (NER) pathway initiates as the XPC–RAD23B–CETN2 complex first recognizes DNA lesions from the genomic DNA and recruits the general transcription factor complex, TFIIH, for subsequent lesion verification. Here, we present a cryo-EM structure of an NER initiation complex containing Rad4–Rad23-Rad33 (yeast homologue of XPC–RAD23B–CETN2) and 7-subunit coreTFIIH assembled on a carcinogen-DNA adduct lesion at 3.9–9.2 Å resolution. A ~30-bp DNA duplex could be mapped as it straddles between Rad4 and the Ssl2 (XPB) subunit of TFIIH on the 3' and 5' side of the lesion, respectively. The simultaneous binding with Rad4 and TFIIH was permitted by an unwinding of DNA at the lesion. Translocation coupled with torque generation by Ssl2 and Rad4 would extend the DNA unwinding at the lesion and deliver the damaged strand to Rad3 (XPD) in an open form suitable for subsequent lesion scanning and verification.
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