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The nucleotide sequence of Saccharomyces cerevisiae chromosome V

Author

Listed:
  • F. S. Dietrich

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • J. Mulligan

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • K. Hennessy

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • M. A. Yelton

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • E. Allen

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • R. Araujo

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • E. Aviles

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • A. Berno

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • T. Brennan

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • J. Carpenter

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • E. Chen

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • J. M. Cherry

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • E. Chung

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • M. Duncan

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • E. Guzman

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • G. Hartzell

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • S. Hunicke-Smith

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • R. W. Hyman

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • A. Kayser

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • C. Komp

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • D. Lashkari

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • H. Lew

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • D. Lin

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • D. Mosedale

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • K. Nakahara

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • A. Namath

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • R. Norgren

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • P. Oefner

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • C. Oh

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • F. X. Petel

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • D. Roberts

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • P. Sehl

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • S. Schramm

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • T. Shogren

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • V. Smith

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • P. Taylor

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • Y. Wei

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • D. Botstein

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

  • R. W. Davis

    (Stanford DNA Sequencing and Technology Center
    Stanford University Medical School)

Abstract

Here we report the sequence of 569,202 base pairs of Saccharomyces cerevisiae chromosome V. Analysis of the sequence revealed a centromere, two telomeres and 271 open reading frames (ORFs) plus 13 tRNAs and four small nuclear RNAs. There are two Ty1 transposable elements, each of which contains an ORF (included in the count of 271). Of the ORFs, 78 (29%) are new, 81 (30%) have potential homologues in the public databases, and 112 (41%) are previously characterized yeast genes.

Suggested Citation

  • F. S. Dietrich & J. Mulligan & K. Hennessy & M. A. Yelton & E. Allen & R. Araujo & E. Aviles & A. Berno & T. Brennan & J. Carpenter & E. Chen & J. M. Cherry & E. Chung & M. Duncan & E. Guzman & G. Har, 1997. "The nucleotide sequence of Saccharomyces cerevisiae chromosome V," Nature, Nature, vol. 387(6632), pages 78-81, May.
  • Handle: RePEc:nat:nature:v:387:y:1997:i:6632:d:10.1038_387s078
    DOI: 10.1038/387s078
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