2024
DOI: 10.1093/g3journal/jkae064
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Identification of different classes of genome instability suppressor genes through analysis of DNA damage response markers

Bin-Zhong Li,
Richard D Kolodner,
Christopher D Putnam

Abstract: Cellular pathways that detect DNA damage are useful for identifying genes that suppress DNA damage, which can cause genome instability and cancer predisposition syndromes when mutated. We identified 199 high-confidence and 530 low-confidence DNA damage suppressing (DDS) genes in Saccharomyces cerevisiae through a whole genome screen for mutations inducing Hug1 expression, a focused screen for mutations inducing Ddc2 foci, and data from previous screens for mutations causing Rad52 foci accumulation and Rnr3 ind… Show more

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“…There is still much to learn about how these common organisms function. Well-done studies on single genes that advance the field always have a home in G3 , and we’ve also seen targeted high-throughput approaches to comprehensively identify new functions or pathways involving known factors ( Lao et al 2018 ; Chatfield-Reed et al 2022 ; Lin et al 2022 ; Li et al 2024 ).…”
mentioning
confidence: 99%
“…There is still much to learn about how these common organisms function. Well-done studies on single genes that advance the field always have a home in G3 , and we’ve also seen targeted high-throughput approaches to comprehensively identify new functions or pathways involving known factors ( Lao et al 2018 ; Chatfield-Reed et al 2022 ; Lin et al 2022 ; Li et al 2024 ).…”
mentioning
confidence: 99%