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Genes Genet Syst


Title:Roles of sexual cell agglutination in yeast mass mating
Author(s):Suzuki K;
Address:"Department of Biological Science, Graduate School of Science, Hiroshima University, Higashi-Hiroshima 739-8526, Japan. ksuzuki@hiroshima-u.ac.jp"
Journal Title:Genes Genet Syst
Year:2003
Volume:78
Issue:3
Page Number:211 - 219
DOI: 10.1266/ggs.78.211
ISSN/ISBN:1341-7568 (Print) 1341-7568 (Linking)
Abstract:"The agalpha1 mutant MAT alpha cells specifically lack the cell surface alpha-type sexual agglutination substance, which is also called alpha-agglutinin. Because the mutant cells (MATalpha agalpha1) can not form aggregates with MATa cells, MATalpha agalpha1 cells are unable to mate with MATa cells when they are co-inoculated in a liquid medium, and the mating is attenuated on solid medium. The attenuated mating ability shown in the previous studies gave us a vague idea about a physiological function of the sexual agglutinability. In order to solve the question, mating behavior of MATalpha agalpha1 cells was investigated here under conditions where the contact between MATa and MAT alpha cells is assisted by physical methods. A synthetic mutation agalpha1::URA3 was constructed and used as well as agalpha1-1 for this study to ensure the genetic defect. When a mixture of MATa and MAT alpha cells was kept on filter membrane placed on relatively dry agar medium, even agalpha1::URA3 mutant cells mated as efficiently as the wild type (AGalpha1) cells did. On filter membrane placed on moist agar medium, agalpha1 mutants mated 10-fold less efficiently than wild type cells did. The mutant cells mated 10000-time less efficiently than the wild type cells in a pellet formed by brief low speed centrifugation. In contrast, the wild type MATalpha cells mated well under all conditions tested. Under the pellet condition, a mixture of MATa and MATalpha AG alpha1 cells formed an extended and cotton-like pellet while a mixture of MATa and MATalpha agalpha1 cells formed a compact and tight pellet. These results suggest that sexual cell agglutination contributes not only to cell contact between MATa and MAT alpha cells thereby stabilizing a-alpha cell pairs, but also to construction of a uniquely organized ultra structure favorable for zygote formation and subsequent growth of diploid cells. The mating specific extended pellet formation was observed also in 4 pairs of a and alpha strains in ascosporogenous yeast genera Hansenula and Pichia"
Keywords:"*Agglutination Cell Communication Mating Factor Mutation Peptides/*physiology *Recombination, Genetic Saccharomyces cerevisiae/*physiology Spores, Fungal X Chromosome/*metabolism Zygote/metabolism;"
Notes:"MedlineSuzuki, Katsunori eng Japan 2003/08/02 Genes Genet Syst. 2003 Jun; 78(3):211-9. doi: 10.1266/ggs.78.211"

 
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