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Mol. Cell. Biol., Feb 1997, 751-759, Vol 17, No. 2
L Szeto and JR Broach
The homeodomain protein alpha2p plays a role both in transcriptional
repression in the process of cell type determination and in donor selection
during mating interconversion. We have explored the mechanism of
alpha2p-directed donor selection by examining the effects on donor
preference of mutants deficient in alpha2p-mediated transcriptional
repression. As a transcriptional regulator, alpha2p interacts with Mcm1p,
Tup1p, and Ssn6p to repress a-specific genes and with a1p, Tup1p, and Ssn6p
to repress haploid-specific genes. We have found that mutant alleles of
MATalpha2 that specifically diminish the interaction of alpha2p with Mcm1p
or Tup1p behave as null alleles with regard to donor preference, while
mutations of MATalpha2 that specifically diminish interaction of alpha2p
with a1p behave as wild-type MATalpha2 in this capacity. Tup1p plays an
essential role in alpha2p-mediated transcriptional repression, while Ssn6p
has only a modest effect in repression. In a similar vein, we find that
TUP1, but not SSN6, is required for proper donor selection. These results
suggest that, in addition to regulating a-specific gene expression to
establish the mating type of the cell, alpha2p-Mcm1p-Tup1p complex may
indirectly regulate donor preference through transcriptional control of an
a- specific gene. Alternatively, this complex may play a direct role in
establishing donor preference via its DNA binding and chromatin
organization capacity.
Copyright © 1997, American Society for Microbiology
Role of alpha2 protein in donor locus selection during mating type interconversion
Department of Molecular Biology, Princeton University, New Jersey 08544- 1014, USA.
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