2023
DOI: 10.7554/elife.88087.2
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Identification of 1600 replication origins in S. cerevisiae

Eric J. Foss,
Carmina Lichauco,
Tonibelle Gatbonton-Schwager
et al.

Abstract: There are approximately 500 known origins of replication in the yeast genome, and the process by which DNA replication initiates at these locations is well understood. In particular, these sites are made competent to initiate replication by loading of the Mcm replicative helicase prior to the start of S phase; thus, “a site to which MCM is bound in G1” might be considered to provide an operational definition of a replication origin. By fusing a subunit of Mcm to micrococcal nuclease, a technique referred to as… Show more

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“…Stalled replication forks can be rescued by converging forks from other origins, but the next origin can be very far away (up to a 95 kb region containing 55 genes in the S. cerevisiae genome), so the oncoming fork could also encounter an impediment necessitating rescue by firing of a dormant origin. A recent study shows that there are many more dormant origins than previously thought, coherent with the prediction that the distribution of origins in yeast genomes is optimised for robustness against replication impediments (Foss et al, 2023;Newman et al, 2013); however, we consider that frequent stalling of replication forks at such impediments even if robustly and effectively rescued would slow the completion of S phase and thereby impair competitive fitness.…”
Section: Interruption Of Replisome Progression By R-loops and G-supporting
confidence: 88%
“…Stalled replication forks can be rescued by converging forks from other origins, but the next origin can be very far away (up to a 95 kb region containing 55 genes in the S. cerevisiae genome), so the oncoming fork could also encounter an impediment necessitating rescue by firing of a dormant origin. A recent study shows that there are many more dormant origins than previously thought, coherent with the prediction that the distribution of origins in yeast genomes is optimised for robustness against replication impediments (Foss et al, 2023;Newman et al, 2013); however, we consider that frequent stalling of replication forks at such impediments even if robustly and effectively rescued would slow the completion of S phase and thereby impair competitive fitness.…”
Section: Interruption Of Replisome Progression By R-loops and G-supporting
confidence: 88%