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Characterization of an essential Orc2p-associated factor that plays a role in DNA replication. 总被引:10,自引:3,他引:7
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C F Hardy 《Molecular and cellular biology》1996,16(4):1832-1841
The Saccharomyces cerevisiae Orc2 protein is a subunit of the origin recognition complex, ORC, which binds in a sequence-specific manner to yeast origins of DNA replication. With screens for orc2-1 synthetic lethal mutations and Orc2p two-hybrid interactors, a novel Orc2p-associated factor (Oaf1p) was identified. OAF1 is essential, its gene product is localized to the nucleus, and an oaf1 temperature-sensitive mutant arrests as large budded cells with a single nucleus. The mutant oaf1-2, isolated in the synthetic lethal screen, loses plasmids containing a single origin of DNA replication at a high rate, but it maintains plasmids carrying multiple potential origins of DNA replication. In addition, the OAF1 gene product tagged with the hemagglutinin antigen epitope binds to a DNA affinity column containing covalently linked tandem repeats of an essential origin element. These results suggest a role for OAFI in the initiation of DNA replication. Mutant alleles of cdc7 and cdc14 were also isolated in the orc2-1 synthetic lethal screen. Cdc7p, like Oaf1p, also interacts with Orc2p in two-hybrid assays. 相似文献
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The tumor suppressor p53 is activated upon genotoxic and oxidative stress and in turn inhibits cell proliferation and growth through induction of specific target genes. Cell growth is positively regulated by mTOR, whose activity is inhibited by the TSC1:TSC2 complex. Although genotoxic stress has been suggested to inhibit mTOR via p53-mediated activation of mTOR inhibitors, the precise mechanism of this link was unknown. We now demonstrate that the products of two p53 target genes, Sestrin1 and Sestrin2, activate the AMP-responsive protein kinase (AMPK) and target it to phosphorylate TSC2 and stimulate its GAP activity, thereby inhibiting mTOR. Correspondingly, Sestrin2-deficient mice fail to inhibit mTOR signaling upon genotoxic challenge. Sestrin1 and Sestrin2 therefore provide an important link between genotoxic stress, p53 and the mTOR signaling pathway. 相似文献