Genome sequence of <i>Halobacterium</i> species NRC-1

Wailap Victor Ng; Sean P. Kennedy; Gregory G. Mahairas; Brian R. Berquist; Min Pan; Hem D. Shukla; Stephen R. Lasky; Nitin S. Baliga; Vésteinn Thórsson; Jennifer Sbrogna; Steven Swartzell; Douglas Weir; John C. Hall; Timothy Dahl; Russell Welti; Young Ah Goo; Brent Leithauser; Kim Keller; Randy Cruz; Michael J. Danson; David W. Hough; Deborah G. Maddocks; Peter E. Jablonski; Mark P. Krebs; Christine M. Angevine; Heather Dale; Thomas A. Isenbarger; Ronald F. Peck; Mechthild Pohlschröder; John L. Spudich; Kwang-Hwan Jung; M. Shahid Alam; Tracey Freitas; Shaobin Hou; Charles J. Daniels; Patrick P. Dennis; Arina D. Omer; H. Alexander Ebhardt; Todd M. Lowe; Ping Liang; Monica Riley; Leroy Hood; Shiladitya DasSarma

doi:10.1073/pnas.190337797

Genome sequence of <i>Halobacterium</i> species NRC-1

Wailap Victor Ng(Institute for Systems Biology), Sean P. Kennedy(University of Bath), Gregory G. Mahairas(Institute for Systems Biology), Brian R. Berquist(University of Bath), Min Pan(Institute for Systems Biology), Hem D. Shukla(University of Bath), Stephen R. Lasky(Institute for Systems Biology), Nitin S. Baliga(University of Bath), Vésteinn Thórsson(Institute for Systems Biology), Jennifer Sbrogna(University of Bath), Steven Swartzell(University of Bath), Douglas Weir(University of Bath), John C. Hall(University of Bath), Timothy Dahl(Institute for Systems Biology), Russell Welti(Institute for Systems Biology), Young Ah Goo(Institute for Systems Biology), Brent Leithauser(University of Bath), Kim Keller(University of Bath), Randy Cruz(University of Bath), Michael J. Danson(University of Bath), David W. Hough(University of Bath), Deborah G. Maddocks(University of Bath), Peter E. Jablonski(University of Bath), Mark P. Krebs(University of Bath), Christine M. Angevine(University of Bath), Heather Dale(University of Bath), Thomas A. Isenbarger(University of Bath), Ronald F. Peck(University of Bath), Mechthild Pohlschröder(University of Bath), John L. Spudich(University of Bath), Kwang-Hwan Jung(University of Bath), M. Shahid Alam(University of Bath), Tracey Freitas(University of Bath), Shaobin Hou(University of Bath), Charles J. Daniels(University of Bath), Patrick P. Dennis(University of Bath), Arina D. Omer(University of Bath), H. Alexander Ebhardt(University of Bath), Todd M. Lowe(University of Bath), Ping Liang(University of Bath), Monica Riley(University of Bath), Leroy Hood(Institute for Systems Biology), Shiladitya DasSarma(University of Bath)

Proceedings of the National Academy of Sciences

October 3, 2000

10.1073/pnas.190337797

Cited by 709Open Access

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Abstract

We report the complete sequence of an extreme halophile, Halobacterium sp. NRC-1, harboring a dynamic 2,571,010-bp genome containing 91 insertion sequences representing 12 families and organized into a large chromosome and 2 related minichromosomes. The Halobacterium NRC-1 genome codes for 2,630 predicted proteins, 36% of which are unrelated to any previously reported. Analysis of the genome sequence shows the presence of pathways for uptake and utilization of amino acids, active sodium-proton antiporter and potassium uptake systems, sophisticated photosensory and signal transduction pathways, and DNA replication, transcription, and translation systems resembling more complex eukaryotic organisms. Whole proteome comparisons show the definite archaeal nature of this halophile with additional similarities to the Gram-positive Bacillus subtilis and other bacteria. The ease of culturing Halobacterium and the availability of methods for its genetic manipulation in the laboratory, including construction of gene knockouts and replacements, indicate this halophile can serve as an excellent model system among the archaea.

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