Karuna Sharma scite author profile

The ura4 replication origin region, which is located near the ura4 gene on chromosome III of the fission yeast, Schizosaccharomyces pombe, contains multiple initiation sites. We have used 2D gel electrophoretic replicon mapping methods to study the distribution of these initiation sites, and have found that they are concentrated near three ARS elements (stretches of DNA which permit autonomous plasmid replication). To determine the roles of these ARS elements in the function of the ura4 origin region, we deleted either one or two of them from the chromosome and then assessed the consequences of the deletions by 2D gel electrophoresis. The results suggest that each of the three ARS elements is responsible for the initiation events in its vicinity and that the ARS elements interfere with each other in a hierarchical fashion. It is possible that the large initiation zones of animal cells are similarly composed of multiple mutually interfering origins.

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Activation of dormant origins of DNA replication in budding yeast

Santocanale¹,

Sharma²,

Diffley³

1999

Genes & Development

127

102

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Eukaryotic genomes often contain more potential replication origins than are actually used during S phase. The molecular mechanisms that prevent some origins from firing are unknown. Here we show that dormant replication origins on the left arm of budding yeast chromosome III become activated when both passive replication through them is prevented and the Mec1/Rad53 checkpoint that blocks late-origin firing is inactivated. Under these conditions, dormant origins fire very late relative to other active origins. These experiments show that some dormant replication origins are competent to fire during S phase and that passage of a replication fork through such origins can inactivate them.

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Apoptosis in budding yeast caused by defects in initiation of DNA replication

Weinberger

Ramachandran

et al. 2005

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Apoptosis in metazoans is often accompanied by the destruction of DNA replication initiation proteins, inactivation of checkpoints and activation of cyclin-dependent kinases, which are inhibited by checkpoints that directly or indirectly require initiation proteins. Here we show that, in the budding yeast Saccharomyces cerevisiae, mutations in initiation proteins that attenuate both the initiation of DNA replication and checkpoints also induce features of apoptosis similar to those observed in metazoans. The apoptosis-like phenotype of initiation mutants includes the production of reactive oxygen species (ROS) and activation of the budding-yeast metacaspase Yca1p. In contrast to a recent report that activation of Yca1p only occurs in lysed cells and does not contribute to cell death, we found that, in at least one initiation mutant, Yca1p activation occurs at an early stage of cell death (before cell lysis) and contributes to the lethal effects of the mutation harbored by this strain. Apoptosis in initiation mutants is probably caused by DNA damage associated with the combined effects of insufficient DNA replication forks to completely replicate the genome and defective checkpoints that depend on initiation proteins and/or replication forks to restrain subsequent cell-cycle events until DNA replication is complete. A similar mechanism might underlie the proapoptotic effects associated with the destruction of initiation and checkpoint proteins during apoptosis in mammals, as well as genome instability in initiation mutants of budding yeast.

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Targeted Destruction of DNA Replication Protein Cdc6 by Cell Death Pathways in Mammals and Yeast

Blanchard¹,

Rusiniak

Sharma

et al. 2002

MBoC

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The highly conserved Cdc6 protein is required for initiation of eukaryotic DNA replication and, in yeast and Xenopus, for the coupling of DNA replication to mitosis. Herein, we show that human Cdc6 is rapidly destroyed by a p53-independent, proteasome-, and ubiquitin-dependent pathway during early stages of programmed cell death induced by the DNA-damaging drug adozelesin, or by a separate caspase-dependent pathway in cells undergoing apoptosis through an extrinsic pathway induced by tumor necrosis factor-alpha and cycloheximide. The proteasome-dependent pathway induced by adozelesin is conserved in the budding yeast Saccharomyces cerevisiae. The destruction of Cdc6 may be a primordial programmed death response that uncouples DNA replication from the cell division cycle, which is reinforced in metazoans by the evolution of caspases and p53.

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Karuna Sharma

Three ARS elements contribute to the ura4 replication origin region in the fission yeast, Schizosaccharomyces pombe.

Activation of dormant origins of DNA replication in budding yeast

Apoptosis in budding yeast caused by defects in initiation of DNA replication

Targeted Destruction of DNA Replication Protein Cdc6 by Cell Death Pathways in Mammals and Yeast

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