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A basal-level activity of ATR links replication fork surveillance and stress response.

Molecular cell (2021-09-03)
Yandong Yin, Wei Ting Chelsea Lee, Dipika Gupta, Huijun Xue, Peter Tonzi, James A Borowiec, Tony T Huang, Mauro Modesti, Eli Rothenberg
ABSTRACT

Mammalian cells use diverse pathways to prevent deleterious consequences during DNA replication, yet the mechanism by which cells survey individual replisomes to detect spontaneous replication impediments at the basal level, and their accumulation during replication stress, remain undefined. Here, we used single-molecule localization microscopy coupled with high-order-correlation image-mining algorithms to quantify the composition of individual replisomes in single cells during unperturbed replication and under replicative stress. We identified a basal-level activity of ATR that monitors and regulates the amounts of RPA at forks during normal replication. Replication-stress amplifies the basal activity through the increased volume of ATR-RPA interaction and diffusion-driven enrichment of ATR at forks. This localized crowding of ATR enhances its collision probability, stimulating the activation of its replication-stress response. Finally, we provide a computational model describing how the basal activity of ATR is amplified to produce its canonical replication stress response.

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Sigma-Aldrich
Idrossiurea, 98%, powder
Sigma-Aldrich
Anti-β-Tubulin antibody, Mouse monoclonal, ~2.0 mg/mL, clone AA2, purified from hybridoma cell culture
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Anticorpo anti-proteina di replicazione A, clone RPA34-20, clone RPA34-20, from mouse
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Anti-phospho-Histone H2A.X (Ser139) Antibody, clone JBW301, biotin conjugate, clone JBW301, Upstate®, from mouse
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Chk2 Inhibitor, PV1019, The Chk2 Inhibitor, PV1019 controls the biological activity of Chk2. This small molecule/inhibitor is primarily used for Phosphorylation & Dephosphorylation applications.