The archaeal XPB protein is a ssDNA-dependent ATPase with a novel partner

Jodi D. Richards, Luza Cubeddu, Jennifer Roberts, Huanting Luau, Malcolm F. White

Research output: Contribution to journalArticlepeer-review

29 Citations (Scopus)

Abstract

XPB is a superfamily 2 helicase with a 3'-5' polarity. In eukaryotes, XPB is an integral subunit of the transcription factor TFIIH, which plays a dual role in DNA opening at RNA polymerase II promoters and in establishing the repair bubble around a DNA lesion in nucleotide excision repair. Eukaryotic XPB has only very limited helicase activity in vitro and may function as a DNA-dependent molecular switch to catalyse local distortion of DNA in transcription and repair. Most archaea have one or two homologues of the XPB protein with a presumed role in DNA repair, but only one other subunit of the TFIIH complex, the 5'-3' helicase XPD, has been identified in archaea. Here we report the biochemical characterisation of the two homologous XPB proteins from the crenarchaeon Sulfolobus solfataricus. Although both proteins are single-stranded-DNA-stimulated ATPases, neither displays any helicase activity in vitro, consistent with recent studies of eukaryotic XPB. In almost all archaeal genomes, the xpb gene lies adjacent to a conserved partner gene, and we demonstrate that these two gene products form a physical interaction in vitro. We propose the name Bax1 (Binds archaeal XPB) for this protein, which has a predicted endonuclease domain. XPB and Bax1 may collaborate in processing nucleic acid in an archaeal-specific DNA repair pathway. (C) 2007 Elsevier Ltd. All rights reserved.

Original languageEnglish
Pages (from-to)634-644
Number of pages11
JournalJournal of Molecular Biology
Volume376
DOIs
Publication statusPublished - 22 Feb 2008

Keywords

  • archaea
  • XPB
  • helicase
  • DNA repair
  • transcription
  • NUCLEOTIDE EXCISION-REPAIR
  • DNA-BINDING-PROTEIN
  • SULFOLOBUS-SOLFATARICUS
  • LABELED OLIGONUCLEOTIDES
  • DAMAGED DNA
  • HELICASE
  • TFIIH
  • TRANSCRIPTION
  • ENDONUCLEASE
  • REPLICATION

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