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Cell cycle checkpoints and DNA repair pathways contribute to maintaining genome integrity and are thought to be evolutionarily ancient and broadly conserved. For example, in the yeast Saccharomyces cerevisiae and humans, DNA damage induces activation of a checkpoint effector kinase, Rad53p (human homolog Chk2), to promote cell cycle arrest and transcription of DNA repair genes. However, recent studies have revealed variation in the DNA damage response networks of some fungi. For example, Shor et al. (mBio 11:e03044-20, 2020, https://doi.org/10.1128/mBio.03044-20) demonstrate that in comparison to S. cerevisiae, the fungal pathogen Candida glabrata has reduced activation of Rad53p in response to DNA damage. Consequently, some downstream targets that contribute to S. cerevisiae genome maintenance, such as DNA polymerases, are transcriptionally downregulated in C. glabrata Downregulation of genome maintenance genes likely contributes to higher rates of mitotic failure and cell death in C. glabrata This and other recent findings highlight evolutionary diversity in eukaryotic DNA damage responses. Copyright © 2021 Steenwyk.

Citation

Jacob L Steenwyk. Evolutionary Divergence in DNA Damage Responses among Fungi. mBio. 2021 Mar 16;12(2)

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PMID: 33727357

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