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TEMPERATURE-SENSITIVE LETHAL MUTATIONS ON YEAST CHROMOSOME I APPEAR TO DEFINE ONLY A SMALL NUMBER OF GENES
David B. Kaback 1, Paul W. Oeller 2, H. Yde Steensma 1, Janet Hirschman 1, Diane Ruezinsky 1, Kevin G. Coleman 2, and John R. Pringle 2
1 Department of Microbiology, University of Medicine and Dentistry
of New Jersey, New Jersey Medical School, Newark, New Jersey 07103
2 Department of Cellular and Molecular Biology, Division of
Biological Sciences, The University of Michigan, Ann Arbor, Michigan 48109
A method was developed for isolating large numbers of mutations on chromosome I of the yeast Saccharomyces cerevisiae. A strain monosomic for chromosome I (i.e., haploid for chromosome I and diploid for all other chromosomes) was mutagenized with either ethyl methanesulfonate or N-methyl-N'-nitro-N -nitrosoguanidine and screened for temperature-sensitive (Ts- ) mutants capable of growth on rich, glucose-containing medium at 25° but not at 37°. Recessive mutations induced on chromosome I are expressed, whereas those on the diploid chromosomes are usually not expressed because of the presence of wild-type alleles on the homologous chromosomes. Dominant ts mutations on all chromosomes should also be expressed, but these appeared rarely. — Of the 41 ts mutations analyzed, 32 mapped on chromosome I. These 32 mutations fell into only three complementation groups, which proved to be the previously described genes CDC15, CDC24 and PYK1 (or CDC19). We recovered 16 or 17 independent mutations in CDC15, 12 independent mutations in CDC24 and three independent mutations in PYK1. A fourth gene on chromosome I, MAK16, is known to be capable of giving rise to a ts-lethal allele, but we recovered no mutations in this gene. The remaining nine mutations isolated using the monosomic strain appeared not to map on chromosome I and were apparently expressed in the original mutants because they had become homozygous or hemizygous by mitotic recombination or chromosome loss. — The available information about the size of chromosome I suggests that it should contain approximately 60–100 genes. However, our isolation in the monosomic strain of multiple, independent alleles of just three genes suggests that only a small proportion of the genes on chromosome I is easily mutable to give a Ts--lethal phenotype. — During these studies, we located CDC24 on chromosome I and determined that it is centromere distal to PYK1 on the left arm of the chromosome.
Submitted on August 31, 1983Accepted on April 27, 1984
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