Directionality of Fission Yeast Mating-Type Interconversion Is Controlled by the Location of the Donor Loci

INVESTIGATIONS

Directionality of Fission Yeast Mating-Type Interconversion Is Controlled by the Location of the Donor Loci

G. Thon and AJS. Klar
NCI-Frederick Cancer Research and Development Center, ABL-Basic Research Program, Laboratory of Eukaryotic Gene Expression, Frederick, Maryland 21702-1201

Cells of homothallic strains of Schizosaccharomyces pombe efficiently switch between two mating types called P and M. The phenotypic switches are due to conversion of the expressed mating-type locus (mat1) by two closely linked silent loci, mat2-P and mat3-M, that contain unexpressed information for the P and M mating types, respectively. In this process, switching-competent cells switch to the opposite mating type in 72-90% of the cell divisions. Hence, mat2-P is a preferred donor of information to mat1 in M cells, whereas mat3-M is a preferred donor in P cells. We investigated the reason for the donor preference by constructing a strain in which the genetic contents of the donor loci were swapped. We found that switching to the opposite mating type was very inefficient in that strain. This shows that the location of the silent cassettes in the chromosome, rather than their content, is the deciding factor for recognition of the donor for each cell type. We propose a model in which switching is achieved by regulating accessibility of the donor loci, perhaps by changing the chromatin structure in the mating-type region, thus promoting an intrachromosomal folding of mat2 or mat3 onto mat1 in a cell type-specific fashion. We also present evidence for the involvement of the Swi6 and Swi6-mod trans-acting factors in the donor-choice mechanism. We suggest that these factors participate in forming the proposed folded structure.

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				G. Thon, K. R. Hansen, S. P. Altes, D. Sidhu, G. Singh, J. Verhein-Hansen, M. J. Bonaduce, and A. J. S. Klar The Clr7 and Clr8 Directionality Factors and the Pcu4 Cullin Mediate Heterochromatin Formation in the Fission Yeast Schizosaccharomyces pombe Genetics, December 1, 2005; 171(4): 1583 - 1595. [Abstract] [Full Text] [PDF]

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				C. T. Tuzon, B. Borgstrom, D. Weilguny, R. Egel, J. P. Cooper, and O. Nielsen The fission yeast heterochromatin protein Rik1 is required for telomere clustering during meiosis J. Cell Biol., June 21, 2004; 165(6): 759 - 765. [Abstract] [Full Text] [PDF]

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				K.-i. Noma, C. D. Allis, and S. I. S. Grewal Transitions in Distinct Histone H3 Methylation Patterns at the Heterochromatin Domain Boundaries Science, August 10, 2001; 293(5532): 1150 - 1155. [Abstract] [Full Text] [PDF]

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				K Ekwall, E. Nimmo, J. Javerzat, B Borgstrom, R Egel, G Cranston, and R Allshire Mutations in the fission yeast silencing factors clr4+ and rik1+ disrupt the localisation of the chromo domain protein Swi6p and impair centromere function J. Cell Sci., January 11, 1996; 109(11): 2637 - 2648. [Abstract] [PDF]

				X Wu and J E Haber MATa donor preference in yeast mating-type switching: activation of a large chromosomal region for recombination. Genes & Dev., August 1, 1995; 9(15): 1922 - 1932. [Abstract] [PDF]

				R C Allshire, E R Nimmo, K Ekwall, J P Javerzat, and G Cranston Mutations derepressing silent centromeric domains in fission yeast disrupt chromosome segregation. Genes & Dev., January 15, 1995; 9(2): 218 - 233. [Abstract] [PDF]