BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Hepatitis, Retina, Anticancer prodrugs, Prozac, rs2300478, CYP51, cell-cell adhesion)
Bookmark Forward

Recombinational repair in the absence of holliday junction resolvases in E. coli.

Marc Bichara, Sandrine Pelet, Iain B Lambert

Mutation research 2021 Jan-Jun


filter terms:
  • daughter (2)
  • dna damage (1)
  • dna polymerases (2)
  • dna repair (1)
  • dna topoisomerases (2)
  • dna type (2)
  • e coli (2)
  • endodeoxyribonucleases (2)
  • escherichia coli (3)
  • genes (1)
  • genomes (1)
  • nucleotides (1)
  • plasmid (3)
  • protein e coli (2)
  • rusA (3)
  • rusa protein, e coli (1)
  • ruvC (4)
  • ruvc protein, e coli (1)
  • sos system (1)
  • strand break (1)
  • topB (3)
    • Sizes of these terms reflect their relevance to your search.

    Cells possess two major DNA damage tolerance pathways that allow them to duplicate their genomes despite the presence of replication blocking lesions: translesion synthesis (TLS) and daughter strand gap repair (DSGR). The TLS pathway involves specialized DNA polymerases that are able to synthesize past DNA lesions while DSGR relies on Recombinational Repair (RR). At least two mechanisms are associated with RR: Homologous Recombination (HR) and RecA Mediated Excision Repair (RAMER). While HR and RAMER both depend on RecFOR and RecA, only the HR mechanism should involve Holliday Junctions (HJs) resolvase reactions. In this study we investigated the role of HJ resolvases, RuvC, TopIII and RusA on the balance between RAMER and HR in E. coli MG1655 derivatives. Using UV survival measurements, we first clearly establish that, in this genetic background, topB and ruvC define two distinct pathways of HJ resolution. We observed that a recA mutant is much more sensitive to UV than the ruvC topB double mutant which is deficient in HR because of its failure to resolve HJs. This difference is independent of RAMER, the SOS system, RusA, and the three TLS DNA polymerases, and may be accounted for by Double Strand Break repair mechanisms such as Synthesis Dependent Strand Annealing, Single Strand Annealing, or Break Induced Replication, which are independent of HJ resolvases. We then used a plasmid-based assay, in which RR is triggered by a single blocking lesion present on a plasmid molecule, to establish that while HR requires topB, ruvC or rusA, RAMER is independent of these genes and, as expected, requires a functional UvrABC excinuclease. Surprisingly, analysis of the RR events in a strain devoid of HJ resolvases reveals that the UvrABC dependent repair of the single lesion present on the plasmid molecule can generate an excision track potentially extending to dozens of nucleotides. Copyright © 2021 Elsevier B.V. All rights reserved.

    Citation

    Marc Bichara, Sandrine Pelet, Iain B Lambert. Recombinational repair in the absence of holliday junction resolvases in E. coli. Mutation research. 2021 Jan-Jun;822:111740

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 33740684

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.