I Miyabe1, Q M Zhang, Y Kano, S Yonei. 1. Laboratory of Radiation Biology, Graduate School of Science, Kyoto University, Japan.
Abstract
PURPOSE: Escherichia coli HU protein exists as a heterodimer composed of two highly homologous subunits, HU-1 and HU-2, encoded by the hupB and hupA genes, respectively. It introduces negative supercoils into a relaxed circular DNA. Various roles of HU have been suggested in cellular processes such as DNA replication and transcription. The present experiments were designed to understand the role of HU in DNA repair processes in E. coli. MATERIALS AND METHODS: The sensitivity of hupA/hupB mutants of E. coli to the lethal and mutagenic effects of UV was compared with that of a wild-type strain. The effect of the hupAhupB mutations in SOS induction was also examined. RESULTS: The hupAhupB mutations increased the UV sensitivity of E. coli. Nucleotide excision repair was unaffected by the deficiency of HU. On the other hand, E. coli hupAhupB mutants were sensitive to UV in the recA+recB+recF background but not in the recArecB+recF+ or recA+recBrecF+ background. The frequency of UV-induced mutation to rifampicin resistance was significantly reduced in the hupAhupB mutants, and the induction of the recA::lacZ and umuC::lacZ fusion genes was also suppressed in the mutants. CONCLUSIONS: HU protein plays a critical role in the recA, recB-dependent recombinational DNA repair and SOS induction pathways in UV-irradiated E. coli.
PURPOSE:Escherichia coliHU protein exists as a heterodimer composed of two highly homologous subunits, HU-1 and HU-2, encoded by the hupB and hupA genes, respectively. It introduces negative supercoils into a relaxed circular DNA. Various roles of HU have been suggested in cellular processes such as DNA replication and transcription. The present experiments were designed to understand the role of HU in DNA repair processes in E. coli. MATERIALS AND METHODS: The sensitivity of hupA/hupB mutants of E. coli to the lethal and mutagenic effects of UV was compared with that of a wild-type strain. The effect of the hupAhupB mutations in SOS induction was also examined. RESULTS: The hupAhupB mutations increased the UV sensitivity of E. coli. Nucleotide excision repair was unaffected by the deficiency of HU. On the other hand, E. coli hupAhupB mutants were sensitive to UV in the recA+recB+recF background but not in the recArecB+recF+ or recA+recBrecF+ background. The frequency of UV-induced mutation to rifampicin resistance was significantly reduced in the hupAhupB mutants, and the induction of the recA::lacZ and umuC::lacZ fusion genes was also suppressed in the mutants. CONCLUSIONS:HU protein plays a critical role in the recA, recB-dependent recombinational DNA repair and SOS induction pathways in UV-irradiated E. coli.
Authors: Richa Priyadarshini; Carla Cugini; Annette Arndt; Tsute Chen; Natalia O Tjokro; Steven D Goodman; Mary E Davey Journal: Microbiology Date: 2012-11-22 Impact factor: 2.777
Authors: Yoke W Kow; Barry Imhoff; Bernard Weiss; David C I Hung; Antreas A Hindoyan; Randall M Story; Steven D Goodman Journal: Nucleic Acids Res Date: 2007-10-04 Impact factor: 16.971