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Crystal structure of a SeqA-N filament: implications for DNA replication and chromosome organization

  1. Author:
    Guarne, A.
    Brendler, T.
    Zhao, Q. H.
    Ghirlando, R.
    Austin, S.
    Yang, W.

  2. Author Address

    McMaster Univ, Dept Biochem & Biomed Sci, Hamilton, ON L8N 3Z5, Canada. NIDDKD, Mol Biol Lab, NIH, Bethesda, MD 20892 USA. NCI, Gene Regulat & Chromosome Biol Lab, Div Basic Sci, Ctr Canc Res, Frederick, MD 21701 USA Guarne, A, McMaster Univ, Dept Biochem & Biomed Sci, HSC-4N16,1200 Main St W, Hamilton, ON L8N 3Z5, Canada
    1. Year: 2005
    2. Date: APR 20
  2. Journal: Embo Journal
    1. 24
    2. 8
    3. Pages: 1502-1511
  4. Type of Article: Article
  1. Abstract:

    Escherichia coli SeqA binds clusters of transiently hemimethylated GATC sequences and sequesters the origin of replication, oriC, from methylation and premature reinitiation. Besides oriC, SeqA binds and organizes newly synthesized DNA at replication forks. Binding to multiple GATC sites is crucial for the formation of stable SeqA-DNA complexes. Here we report the crystal structure of the oligomerization domain of SeqA (SeqA-N). The structural unit of SeqA-N is a dimer, which oligomerizes to form a filament. Mutations that disrupt filament formation lead to asynchronous DNA replication, but the resulting SeqA dimer can still bind two GATC sites separated from 5 to 34 base pairs. Truncation of the linker between the oligomerization and DNA-binding domains restricts SeqA to bind two GATC sites separated by one or two full turns. We propose a model of a SeqA filament interacting with multiple GATC sites that accounts for both origin sequestration and chromosome organization

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  1. View record in Web of ScienceĀ®
  2. WOS: 000228943900002

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