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Abstract
The cyclin dependent kinase inhibitor Sic1 and the cyclin Clb5 are essential regulators of the cyclindependent kinase Cdc28 during the G1 to S transition in budding yeast. Yeast enters S phase afterubiquitin-mediated degradation of Sic1, an event triggered by Cln1,2-Cdc28 mediated phosphorylation. We recently showed that Sic1 is involved in carbon source modulation of the critical cell sizerequired to enter S phase. Here we show that the amount and sub-cellular localization of Sic1 are alsocarbon source-modulated. We identify a bipartite nuclear localization sequence responsible for nuclearlocalization of Sic1 and for correct cell cycle progression in a carbon-source dependent manner.Similarly to Cip/Kip proteins ? Sic1 mammalian counterparts ? Sic1 facilitates nuclear accumulation ofits cognate cyclin, since cytoplasmic building-up of Clb5 is observed upon switching off expression ofthe SIC1 gene. Our data indicate a previously unrecognized inhibitor/activator dual role for Sic1 andput it among key molecules whose activity is regulated by their nuclear-cytoplasmic localization.