Yeast Meiotic Mutants Proficient for the Induction of Ectopic Recombination

Yeast Meiotic Mutants Proficient for the Induction of Ectopic Recombination

JoAnne Engebrecht^a, Sherie Masse^a, Luther Davis^a, Kristine Rose^a, and Therese Kessel^a
^a Department of Pharmacological Sciences and Graduate Program in Genetics, State University of New York, Stony Brook, New York 11794-8651

Corresponding author: JoAnne Engebrecht, Department of Pharmacological Sciences, State University of New York, Stony Brook, NY 11794-8651, joanne{at}pharm.som.sunysb.edu (E-mail).

Communicating editor: S. JINKS-ROBERTSON

A screen was designed to identify Saccharomyces cerevisiae mutantsthat were defective in meiosis yet proficient for meiotic ectopicrecombination in the return-to-growth protocol. Seven mutantsalleles were isolated; two are important for chromosome synapsis(RED1, MEK1) and five function independently of recombination(SPO14, GSG1, SPOT8/MUM2, 3, 4). Similar to the spoT8-1 mutant,mum2 deletion strains do not undergo premeiotic DNA synthesis,arrest prior to the first meiotic division and fail to sporulate.Surprisingly, although DNA replication does not occur, mum2mutants are induced for high levels of ectopic recombination.gsg1 diploids are reduced in their ability to complete premeioticDNA synthesis and the meiotic divisions, and a small percentageof cells produce spores. mum3 mutants sporulate poorly and thespores produced are inviable. Finally, mum4-1 mutants produceinviable spores. The meiotic/sporulation defects of gsg1, mum2,and mum3 are not relieved by spo11 or spo13 mutations, indicatingthat the mutant defects are not dependent on the initiationof recombination or completion of both meiotic divisions. Incontrast, the spore inviability of the mum4-1 mutant is rescuedby the spo13 mutation. The mum4-1 spo13 mutant undergoes a single,predominantly equational division, suggesting that MUM4 functionsat or prior to the first meiotic division. Although recombinationis variably affected in the gsg1 and mum mutants, we hypothesizethat these mutants define genes important for aspects of meiosisnot directly related to recombination.

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