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Query: UNIPROT:P06889 (Mol)
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The frequency of cell fusion during transformation of yeast protoplasts with various yeast plasmids with a chromosome replicon (YRp or YCp) or 2 mu DNA (YEp) was estimated by two methods. In one method, a mixture of protoplasts of two haploid strains with identical mating type and complementary auxotrophic nuclear markers with or without cytoplasmic markers was transformed. When the number of various phenotypic classes of transformants for the nuclear markers was analyzed by equations derived from binominal distribution theory, the frequency of nuclear fusion among the transformants was 42 to 100% in transformations with the YRp or YCp plasmids and 28 to 39% with the YEp plasmids. In another method, a haploid bearing the sir mutation, which allows a diploid (or polyploid) homozygous for the MAT (mating type) locus to sporulate by the expression of the silent mating-type loci HML and HMR, was transformed with the plasmids. Sporulation ability was found in 43 to 95% of the transformants with the YRp or YCp plasmids, and 26 to 31% of the YEp transformants. When cytoplasmic mixing was included with the nuclear fusion, 96 to 100% of the transformants were found to be cell fusants. Based upon these observations, we concluded that transformation of yeast protoplasts is directly associated with cell fusion.
Mol Cell Biol 1984 Apr
PMID:Transformation of protoplasted yeast cells is directly associated with cell fusion. 637 97

The genome of the yeast Saccharomyces cerevisiae contains three complete copies of the genetic information governing cell mating type. Normally, only the information in one of the copies (the MAT locus) is expressed; the other two copies (HML and HMR) are repressed and serve as donors of mating-type sequences that can be transposed to MAT in cells capable of switching mating type. We have mutagenized the silent HMR locus and have found that the repression of this locus requires two sites, one lying on each side of the mating-type sequences at HMR. The regulatory sites are positioned outside of the sequences that are included in the pair of divergent transcripts coded for by HMR, and lie about 1000 base-pairs to either side of the central promoter region of the locus. Deletion of one of the regulatory sites results phenotypically in complete loss of repression, whereas deletion of the other site gives only partial loss of control. Both of the sites are associated with an autonomous replication activity, though the relationship between this activity and the process of repression is unclear.
J Mol Biol 1984 Jul 05
PMID:Regulation of mating-type information in yeast. Negative control requiring sequences both 5' and 3' to the regulated region. 637 90

Sporulation of S. cerevisiae MAT alpha-/MATa was accompanied by a novel pattern of protein synthesis as shown by the disappearance of some "mitotic" polypeptides and by the appearance of a new set of "meiotic" polypeptides. Inhibition of mitochondrial protein synthesis by erythromycin within the 1st h caused the disappearance of several "meiotic" polypeptides. These meiotic polypeptides were also sensitive to cycloheximide and were localized in the cytosol, demonstrating that they were not mitochondrial translational products. Since erythromycin affected neither protein synthesis nor sporulation in a mitochondrially inherited eryr mutant, we conclude that mitochondrial protein synthesis is needed for the expression of some nuclear genes during sporulation.
Mol Gen Genet 1984
PMID:Modification of nuclear gene expression by inhibition of mitochondrial translation during sporulation in MAT alpha/MATa diploids of Saccharomyces cerevisiae. 639 67

Protein MAT is a homogeneous human IgM (lambda) cryoprecipitating cold agglutinin wherein the Fabmu and Fcmu5 fragment interaction is facilitated at low temps. Thermal dependence of the association of 2,5 DNS labeled Fab MAT with unlabeled Fcmu5 MAT was examined by fluorescence depolarization. The association data, treated by the method of van't Hoff, showed a nonlinear increase in binding with decreased temp, suggestive of certain dynamic changes in the system. Temperature effects on the rotational diffusion of five different 1,5 DNS labeled Fabmu fragments (including two derived from cryoglobulins) were also examined by fluorescence polarization. The linear nature of the Perrin plots derived from the data failed to reveal temp-induced hydrodynamic changes in any of the Fabmu fragments studied. Involvement of carbohydrates in the low-temp self-association of protein MAT was established by the finding that glycopeptides isolated from another IgM molecule (BAZ) could inhibit (as judged by depolarization of fluorescence) the interaction of 2,5 DNS labeled Fabmu MAT and unlabeled Fcmu5 BAZ fragments. These findings indicate that, although cryoprecipitation of protein MAT seemingly involves an antigen-antibody-like reaction between a site on the Fab region and carbohydrate moieties on the Fcmu5 region, no direct evidence for a low-temp-induced conformational change in the Fab region was obtained.
Mol Immunol 1984 Jan
PMID:The molecular mechanism of cryoimmunoglobulin precipitation--II. Thermodynamic basis for self-association as determined by fluorescence polarization. 670 59

Sporulation in Saccharomyces cerevisiae normally occurs only in MATa/MAT alpha diploids. We show that mutations in RME1 bypassed the requirements for both a and alpha mating type information in sporulation and therefore allowed MATa/MATa and MAT alpha/MAT alpha diploids to sporulate. RME1 was located on chromosome VII, between LEU1 and ADE6.
Mol Cell Biol 1981 Oct
PMID:rme1 Mutation of Saccharomyces cerevisiae: map position and bypass of mating type locus control of sporulation. 705 Jun 60

Homothallic switching of yeast mating type genes occurs as often as each cell division, so that a colony derived from a single haploid spore soon contains an equal number of MATa and MAT alpha cells. Cells of opposite mating types conjugate, and eventually the colony contains only nonmating MATa/MAT alpha diploids. Mutations that reduce the efficiency of homothallic MAT conversions yield colonies that still contain many haploid cells of the original spore mating type plus a few recently generated cells of the opposite mating type. These (a greater than alpha)- or (alpha greater than a)-mating colonies also contain some nonmating diploid cells. As an alternative to microscopic pedigree analysis to determine the frequency of mating type conversions in a variety of mutant homothallic strains, we analyzed the proportions of MATa, MAT alpha, and MATa/MAT alpha cells in a colony by examining the mating phenotypes of subclones. We developed a mathematical model that described the proportion of cell types in a slow-switching colony. This model predicted that the proportion of nonmating cells would continually increase with the size (age) of a colony derived from a single cell. This prediction was confirmed by determining the proportion of cell types in colonies of an HO swi1 strain that was grown for different numbers of cell divisions. Data from subcloning (a greater than alpha) and (alpha greater than a) colonies from a variety of slow-switching mutations and chromosomal rearrangements were used to calculate the frequency of MAT conversions in these strains.
Mol Cell Biol 1981 Dec
PMID:Relation between the efficiency of homothallic switching of yeast mating type genes and the distribution of cell types. 705 Jun 63

Eight independently isolated mutants which are supersensitive (Sst-) to the G1 arrest induced by the tridecapeptide pheromone alpha factor were identified by screening mutagenized Saccharomyces cerevisiae MATa cells on solid medium for increased growth inhibition by alpha factor. These mutants carried lesions in two complementation groups, sst1 and sst2. Mutations at the sst1 locus were mating type specific: MATa sst1 cells were supersensitive to alpha factor, but MAT alpha sst1 cells were not supersensitive to a factor. In contrast, mutations at the sst2 locus conferred supersensitivity to the pheromones of the opposite mating type on both MATa and MAT alpha cells. Even in the absence of added alpha pheromone, about 10% of the cells in exponentially growing cultures of MATa strains carrying any of three different alleles of sst2 (including the ochre mutation sst2-4) had the aberrant morphology ("shmoo" shape) that normally develops only after MATa cells are exposed to alpha factor. This "self-shmooing" phenotype was genetically linked to the sst2 mutations, although the leakiest allele isolated (sst2-3) did not display this characteristic. Normal MATa/MAT alpha diploids do not respond to pheromones; diploids homozygous for an sst2 mutation (MATa/MAT alpha sst2-1/sst2-1) were still insensitive to alpha factor. The sst1 gene was mapped to within 6.9 centimorgans of his6 on chromosome IX. The sst2 gene was unlinked to sst1, was not centromere linked, and was shown to be neither linked to nor centromere distal to MAT on the right arm of chromosome III.
Mol Cell Biol 1982 Jan
PMID:Isolation and genetic analysis of Saccharomyces cerevisiae mutants supersensitive to G1 arrest by a factor and alpha factor pheromones. 705 Jun 65

Albino mutants (Pks-) of Colletotrichum lagenarium form nonmelanized appressoria and possess little penetrating ability on the host plant. The defect in albino mutant 79215 (Pks-) is considered to lie in pentaketide biosynthesis and/or pentaketide cyclization during melanin biosynthesis. The cosmid pAC7, carrying the PKS1 gene, when transformed into the albino mutant restores the wild-type melanin phenotype. We have determine the DNA sequence and the transcriptional organization of the PKS1 gene. The PKS1 gene contains one open reading frame, consisting of 3 exons separated by two short introns. The predicted PKS1 polypeptide consists of 2187 amino acids and shows significant similarities with other polyketide synthases, particularly that encoded by wA in Aspergillus nidulans, involved in conidial pigmentation. The PKS1 gene contains highly conserved beta-ketoacyl synthase, acetyl/malonyl transferase, and acyl carrier protein domains. We propose that the C. lagenarium PKS1 gene encodes a polyketide synthase involved in melanin biosynthesis.
Mol Gen Genet 1995 Nov 15
PMID:Structural analysis of PKS1, a polyketide synthase gene involved in melanin biosynthesis in Colletotrichum lagenarium. 750 Sep 37

By establishing a unique screening method, we have isolated yeast mutants that die only after differentiating into cells with a mating projection, and some of them are also defective in Ca2+ signaling. The mutants were classified into five complementation groups, one of which we studied extensively. This mutation defines a new gene, designated MID1, which encodes an N-glycosylated, integral plasma membrane protein with 548 amino acid residues. The mid1-1 mutant has low Ca2+ uptake activity, loses viability after receiving mating pheromones, and escapes death when incubated with high concentrations of CaCl2. The MID1 gene is nonessential for vegetative growth. The efficiency of mating between MATa mid1-1 and MAT alpha mid1-1 cells is low. These results demonstrate that MID1 is required for Ca2+ influx and mating.
Mol Cell Biol 1994 Dec
PMID:MID1, a novel Saccharomyces cerevisiae gene encoding a plasma membrane protein, is required for Ca2+ influx and mating. 752 55

It has been reported that two upstream activation sites, UAS1 and UAS2, exist in the 5' non-coding region of the STA1 gene of Saccharomyces cerevisiae var. diastaticus. Based on studies using a UAS1STA1-CYC1-lacZ fusion, we divided UAS1 into two subsites, UAS1-1 and UAS1-2. The activation of the CYC1 promoter by UAS1STA1 was repressed by glucose in the culture medium and by the STA10 gene. The MATa/MAT alpha mating type configuration did not, however, affect UAS1STA1 activation. The UAS1STA1-CYC1-lacZ expression system was used to study STA10 repression further. A mutant insensitive to STA10-dependent repression was isolated. This sns1 mutation was not linked to STA10 and partially overcame the repressive effect of STA10 at the transcriptional level. From a genomic library constructed in the UAS1STA1-CYC1-lacZ expression vector, the MSS1 locus (multicopy suppressor of sns1) was isolated. This suppression of the sns1 mutation by multiple copies of the MSS1 locus occurred at the transcriptional level. When a gene disruption experiment was performed to examine the effect of a mss1 mutation, the sns1 mss1 double mutants produced 4 times higher levels of STA1 transcripts in the presence of STA10 than did the sns1 strain. Data presented in this paper suggest that both SNS1 and MSS1 loci are involved in STA10-dependent repression.
Mol Gen Genet 1995 Mar 10
PMID:Inactivation of the UAS1 of STA1 by glucose and STA10 and identification of two loci, SNS1 and MSS1, involved in STA10-dependent repression in Saccharomyces cerevisiae. 770 Feb 27


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