2022
DOI: 10.1093/g3journal/jkac120
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A Saccharomyces cerevisiae model and screen to define the functional consequences of oncogenic histone missense mutations

Abstract: Somatic missense mutations in histone genes turn these essential proteins into oncohistones, which can drive oncogenesis. Understanding how missense mutations alter histone function is challenging in mammals as mutations occur in a single histone gene. For example, described oncohistone mutations predominantly occur in the histone H3.3 gene, despite the human genome encoding fifteen H3 genes. To understand how oncogenic histone missense mutations alter histone function, we leveraged the budding yeast model, wh… Show more

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Cited by 4 publications
(18 citation statements)
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“…Previously characterized oncohistones cause growth defects and/or altered drug sensitivity in yeast models (7,28,30,39) demonstrating that yeast models are valuable tools for exploring cellular effects of oncohistone proteins. To explore whether H3E50 changes modeled in yeast also impact cell physiology, we utilized the model organism S. cerevisiae.…”
Section: H3e50 Amino Acid Substitutions Sensitize S Cerevisiae To Dru...mentioning
confidence: 99%
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“…Previously characterized oncohistones cause growth defects and/or altered drug sensitivity in yeast models (7,28,30,39) demonstrating that yeast models are valuable tools for exploring cellular effects of oncohistone proteins. To explore whether H3E50 changes modeled in yeast also impact cell physiology, we utilized the model organism S. cerevisiae.…”
Section: H3e50 Amino Acid Substitutions Sensitize S Cerevisiae To Dru...mentioning
confidence: 99%
“…In both genetic contexts (Figure 5C, D) Hht2-E50R confers a slightly stronger growth defect in the presence of bleomycin or caffeine as compared to Hht2-E50K. H3E50-mutant histones alter cell physiology via a mechanism that is distinct from H3K36M-mutant histones One advantage of the budding yeast system is that simple genetics can be employed to identify cellular pathways impacted by histone PTM and/or oncohistones (30,44,45). We recently employed such an approach to identify high copy suppressors of the caffeine-sensitive growth defect of H3K36 mutants in budding yeast (30).…”
Section: H3e50 Amino Acid Substitutions Sensitize S Cerevisiae To Dru...mentioning
confidence: 99%
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