Cell

Cell

Volume 37, Issue 3, July 1984, Pages 1075-1089
Journal home page for Cell

Article
Isolation of the putative structural gene for the lysine-arginine-cleaving endopeptidase required for processing of yeast prepro-α-factor

https://doi.org/10.1016/0092-8674(84)90442-2Get rights and content

Abstract

S. cerevisiae kex2 mutants are defective for the production of two biologically active secreted peptides: killer toxin and the mating pheromone, α-factor. Both molecules are excised from larger precursor polypeptides. In normal cells, the α-factor precursor is core-glycosylated and proteolytically processed intracellularly. In kex2 mutants, however, prepro-α-factor is not proteolytically cleaved and is secreted in a highly glycosylated form. All kex2 mutants examined (three independent alleles) lack a Zn++-sensitive membrane-associated endopeptidase with specificity for cleaving on the carboxyl side of a pair of basic residues. Absence of this activity cosegregates with the other phenotypes of a kex2 lesion in genetic crosses. The normal KEX2 gene was isolated by complementation of three of the phenotypes conferred by the kex2-1 mutation. The cloned DNA, either on a multicopy plasmid or integrated into the genome, restores both enzymatic activity in vitro and the normal pattern of proteolytic processing and glycosylation of prepro-α-factor in vivo. Gene dosage effects suggest that KEX2 is the structural gene for the endopeptidase.

References (46)

  • D. Julius et al.

    Yeast a-factor is processed from a larger precursor polypeptide: the essential role of a membrane-bound dipeptidyl aminopeptidase

    Cell

    (1983)
  • D. Julius et al.

    Glycosylation and processing of prepro-a-factor through the yeast secretory pathway

    Cell

    (1984)
  • J. Kurjan et al.

    Structure of a yeast pheromone gene (MFa): a putative a-factor precursor contains four tandem repeats of mature a-factor

    Cell

    (1982)
  • T.L. Orr-Weaver et al.

    Genetic applications of yeast transformation with linear and gapped plasmids

    Meth. Enzymol.

    (1983)
  • D.T. Rogers et al.

    Saccharomyces cerevisiae killer expression mutant kex2 has altered secretory proteins and glycoproteins

    Biochem. Biophys. Res. Commun.

    (1979)
  • R. Schekman

    The secretory pathway in yeast

    Trends Biochem. Sci.

    (1982)
  • E. Southern

    Detection of specific sequences among DNA fragments separated by gel electrophoresis

    J. Mol. Biol.

    (1975)
  • C.E. Ballou

    Yeast cell wall and cell surface

  • J.D. Beggs

    Transformation of yeast by a replicating hybrid plasmid

    Nature

    (1978)
  • D. Botstein et al.

    Principles and practice of recombinant DNA research with yeast

  • A.J. Brake et al.

    A functional prepro-α-factor gene in Saccharomyces yeasts can contain three, four or five repeats of the mature pheromone sequence

    Mol. Cell. Biol.

    (1983)
  • A. Brake et al.

    Identification and characterization of a structural gene for the yeast peptide mating pheromone, a-factor

    J. Cell. Biochem. (Suppl.)

    (1983)
  • A.J. Brake et al.

    a-Factor-directed synthesis and secretion of mature foreign proteins in S. cerevisiae

    • Cited by (0)

    Present address: Institute of Cancer Research, College of Physicians and Surgeons, Columbia University, New York, New York 10032.

    Present address: Ingene, Incorporated, Santa Monica, California 90404.

    View full text
    Copyright © 1984