Yue Yuan scite author profile

Yue Yuan

3Publications

37Citation Statements Received

187Citation Statements Given

How they've been cited

How they cite others

154

180

Affiliations

Peking University, University of Amsterdam, Center for Life Sciences

Publications

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The intra-S phase checkpoint directly regulates replication elongation to preserve the integrity of stalled replisomes

Liu

Wang

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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DNA replication is dramatically slowed down under replication stress. The regulation of replication speed is a conserved response in eukaryotes and, in fission yeast, requires the checkpoint kinases Rad3ATR and Cds1Chk2. However, the underlying mechanism of this checkpoint regulation remains unresolved. Here, we report that the Rad3ATR-Cds1Chk2 checkpoint directly targets the Cdc45-MCM-GINS (CMG) replicative helicase under replication stress. When replication forks stall, the Cds1Chk2 kinase directly phosphorylates Cdc45 on the S275, S322, and S397 residues, which significantly reduces CMG helicase activity. Furthermore, in cds1Chk2-mutated cells, the CMG helicase and DNA polymerases are physically separated, potentially disrupting replisomes and collapsing replication forks. This study demonstrates that the intra-S phase checkpoint directly regulates replication elongation, reduces CMG helicase processivity, prevents CMG helicase delinking from DNA polymerases, and therefore helps preserve the integrity of stalled replisomes and replication forks.

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Replication fork stalling elicits chromatin compaction for the stability of stalling replication forks

Feng

Yuan

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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DNA replication forks in eukaryotic cells stall at a variety of replication barriers. Stalling forks require strict cellular regulations to prevent fork collapse. However, the mechanism underlying these cellular regulations is poorly understood. In this study, a cellular mechanism was uncovered that regulates chromatin structures to stabilize stalling forks. When replication forks stall, H2BK33, a newly identified acetylation site, is deacetylated and H3K9 trimethylated in the nucleosomes surrounding stalling forks, which results in chromatin compaction around forks. Acetylation-mimic H2BK33Q and its deacetylase clr6-1 mutations compromise this fork stalling-induced chromatin compaction, cause physical separation of replicative helicase and DNA polymerases, and significantly increase the frequency of stalling fork collapse. Furthermore, this fork stalling-induced H2BK33 deacetylation is independent of checkpoint. In summary, these results suggest that eukaryotic cells have developed a cellular mechanism that stabilizes stalling forks by targeting nucleosomes and inducing chromatin compaction around stalling forks. This mechanism is named the “Chromsfork” control: Chromatin Compaction Stabilizes Stalling Replication Forks.

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On the Price Spread of Benchmark Crude Oils: A Spatial Price Equilibrium Model

Bennett

Yuan

2016

SSRN Journal

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Benchmark crude oils exhibited dramatic fluctuations in price spreads in the recent decade, a phenomenon that rarely occurred in earlier decades. This paper develops a rational expectations two-period model of spatial price equilibrium, and departs from standard models by assuming increasing marginal costs of transportation and storage. We econometrically validate our model using a dataset that covers an extended time period. The model allows us to determine the underlying causes of the unique phenomenon of drastically changing crude oil price spreads over the past decade.

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Yue Yuan

The intra-S phase checkpoint directly regulates replication elongation to preserve the integrity of stalled replisomes

Replication fork stalling elicits chromatin compaction for the stability of stalling replication forks

On the Price Spread of Benchmark Crude Oils: A Spatial Price Equilibrium Model

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