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Open Access Publications from the University of California

Whole-genome shotgun optical mapping of rhodospirillum rubrum

  • Author(s): Reslewic, Susan
  • Zhou, Shiguo
  • Place, Mike
  • Zhang, Yaoping
  • Briska, Adam
  • Goldstein, Steve
  • Churas, Chris
  • Runnheim, Rod
  • Forrest, Dan
  • Lim, Alex
  • Lapidus, Alla
  • Han, Cliff S.
  • Roberts, Gary P.
  • Schwartz, David C.
  • et al.
Abstract

Rhodospirillum rubrum is a phototrophic purple non-sulfur bacterium known for its unique and well-studied nitrogen fixation and carbon monoxide oxidation systems, and as a source of hydrogen and biodegradable plastics production. To better understand this organism and to facilitate assembly of its sequence, three whole-genome restriction maps (Xba I, Nhe I, and Hind III) of R. rubrum strain ATCC 11170 were created by optical mapping. Optical mapping is a system for creating whole-genome ordered restriction maps from randomly sheared genomic DNA molecules extracted directly from cells. During the sequence finishing process, all three optical maps confirmed a putative error in sequence assembly, while the Hind III map acted as a scaffold for high resolution alignment with sequence contigs spanning the whole genome. In addition to highlighting optical mapping's role in the assembly and validation of genome sequence, our work underscores the unique niche in resolution occupied by the optical mapping system. With a resolution ranging from 6.5 kb (previously published) to 45 kb (reported here), optical mapping advances a "molecular cytogenetics" approach to solving problems in genomic analysis.

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