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The SIR2/3/4 complex and SIR2 alone promote longevity in Saccharomyces cerevisiae by two different mechanisms
October 01 1999
October 01 1999
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Abstract
The SIR genes are determinants of life span in yeast mother cells. Here we show that
life span regulation by the Sir proteins is independent of their role in nonhomologous
end joining. The short life span of a sir3 or sir4 mutant is due to the simultaneous
expression of a and alpha mating-type information, which indirectly causes an increase
in rDNA recombination and likely increases the production of extrachromosomal rDNA
circles. The short life span of a sir2 mutant also reveals a direct failure to repress
recombination generated by the Fob1p-mediated replication block in the rDNA. Sir2p
is a limiting component in promoting yeast longevity, and increasing the gene dosage
extends the life span in wild-type cells. A possible role of the conserved SIR2 in
mammalian aging is discussed.