Jason A. Hendry scite author profile

Re-localization of proteins is a hallmark of the DNA damage response. We use high-throughput microscopic screening of the yeast GFP fusion collection to develop a systems-level view of protein re-organization following drug-induced DNA replication stress. Changes in protein localization and abundance reveal drug-specific patterns of functional enrichments. Classification of proteins by sub-cellular destination allows the identification of pathways that respond to replication stress. We analyzed pairwise combinations of GFP fusions and gene deletion mutants to define and order two novel DNA damage responses. In the first, Cmr1 forms subnuclear foci that are regulated by the histone deacetylase Hos2 and are distinct from the typical Rad52 repair foci. In a second example, we find that the checkpoint kinases Mec1/Tel1 and the translation regulator Asc1 regulate P-body formation. This method identifies response pathways that were not detected in genetic and protein interaction screens, and can be readily applied to any form of chemical or genetic stress to reveal cellular response pathways.

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Structure and composition of silicon-stabilized tricalcium phosphate

Sayer

et al. 2003

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Synthesis and characterization of single-phase silicon-substituted α-tricalcium phosphate

Reid¹,

et al. 2006

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Detection of B.1.351 SARS-CoV-2 Variant Strain — Zambia, December 2020

Mwenda¹,

Saasa²,

Sinyange³

et al. 2021

MMWR Morb. Mortal. Wkly. Rep.

131

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Jason A. Hendry

Dissecting DNA damage response pathways by analysing protein localization and abundance changes during DNA replication stress

Structure and composition of silicon-stabilized tricalcium phosphate

Synthesis and characterization of single-phase silicon-substituted α-tricalcium phosphate

Detection of B.1.351 SARS-CoV-2 Variant Strain — Zambia, December 2020

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