Control of yeast cell type by the mating type locus: I. Identification and control of expression of the a-specific gene BAR1 |
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Authors: | George F Sprague Ira Herskowitz |
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Institution: | Institute of Molecular Biology and Department of Biology University of Oregon, Eugene, Ore. 97403, U.S.A. |
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Abstract: | The MATα allele of the yeast mating type locus confers the α mating phenotype and contains two complementation groups, MATα1 and MATα2. The α1–α2 hypothesis proposes that MATα1 is a positive regulator of α-specific genes and that MATα2 is a negative regulator of a-specific genes. According to this hypothesis, matα2 mutants, which are defective in mating and in production of extracellular α-factor, express both a-specific functions (because they lack MATα2 product) and α-specific functions (because they contain MATα1 product). Failure to produce extracellular α-factor results from antagonism between these functions; in particular, because α-factor (an α-specific function) is degraded by an a-specific function. If this view is correct, matα2 mutants should acquire the ability to produce α-factor if they also carry a defect in the gene(s) responsible for α-factor degradation. We have isolated a derivative of a matα2 mutant that produces α-factor and have characterized the suppressor mutation in this strain. (1) This strain carries a mutation (bar1-1) tightly linked to HIS6 (on chromosome IX) that allows matα2 mutants to produce α-factor. (2) It does not allow matα1 mutants to produce α-factor. (3) Haploids of the a mating type bearing the bar1-1 mutation still mate, but are unable to act as a barrier to the diffusion of α-factor. MATa bar1-1 cells display increased sensitivity to α-factor. (4) A mutation (sst1?2) that causes increased sensitivity to α-factor is allelic to bar1-1 and also allows α-factor synthesis by matα2 mutants. The ability of matα2 bar1 double mutants to produce extracellular α-factor indicates that matα2 mutants do produce α-factor but that it is degraded by the Barrier function. These results suggest that BAR1 is normally expressed only in a cells, and is negatively regulated in α cells by the MATα2 product. |
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Keywords: | Author to whom reprint requests should be sent at present address: Department of Biology University of Oregon Eugene Ore 97403 U S A |
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