Significance of C-terminal cysteine modifications to the biological activity of the Saccharomyces cerevisiae a-factor mating pheromone.

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Mol Cell Biol. 1991 July; 11(7): 3603-3612

Significance of C-terminal cysteine modifications to the biological activity of the Saccharomyces cerevisiae a-factor mating pheromone.

S Marcus, G A Caldwell, D Miller, C B Xue, F Naider and J M Becker

Department of Microbiology, University of Tennessee, Knoxville 37996.

ABSTRACT

We have undertaken total synthesis of the Saccharomyces cerevisiaea-factor (NH2-YIIKGVFWDPAC[S-farnesyl]-COOCH3) and several Cys-12analogs to determine the significance of S-farnesylation andcarboxy-terminal methyl esterification to the biological activityof this lipopeptide mating pheromone. Replacement of eitherthe farnesyl group or the carboxy-terminal methyl ester by ahydrogen atom resulted in marked reduction but not total lossof bioactivity as measured by a variety of assays. Moreover,both the farnesyl and methyl ester groups could be replacedby other substituents to produce biologically active analogs.The bioactivity of a-factor decreased as the number of prenylunits on the cysteine sulfur decreased from three to one, andan a-factor analog having the S-farnesyl group replaced by anS-hexadecanyl group was more active than an S-methyl a-factoranalog. Thus, with two types of modifications, a-factor activityincreased as the S-alkyl group became bulkier and more hydrophobic.MATa cells having deletions of the a-factor structural genes(mfal1 mfa2 mutants) were capable of mating with either sst2or wild-type MAT alpha cells in the presence of exogenous a-factor,indicating that it is not absolutely essential for MATa cellsto actively produce a-factor in order to mate. Various a-factoranalogs were found to partially restore mating to these strainsas well, and their relative activities in the mating restorationassay were similar to their activities in the other assays usedin this study. Mating was not restored by addition of exogenousa-factor to a cross of a wild-type MAT alpha strain and a MATaste6mutant, indicating a role of the STE6 gene product in matingin addition to its secretion of a-factor.

Mol Cell Biol. 1991 July; 11(7): 3603-3612

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