Reference: Wang Z and Xiao W (2020) Distinct requirements for budding yeast Rev1 and Polη in translesion DNA synthesis across different types of DNA damage. Curr Genet 66(5):1019-1028

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Abstract


Certain replication-blocking lesions can escape DNA repair and must be bypassed to prevent fork collapse and cell death. Budding yeast DNA-damage tolerance consists of translesion DNA synthesis (TLS) and template switch. TLS utilizes specialized DNA polymerases to insert nucleotides opposite the damage site, followed by extension, allowing continual replication in the presence of lesions on the template DNA. Meanwhile, Rev1 is additionally required for the subsequent extension step of TLS regardless of the initial insertion polymerase utilized. Here we assess relative contributions of two Y-family TLS polymerases, Rev1 and Polη, in bypassing lesions induced by various types of DNA-damaging agents. Our experimental results collectively indicate that yeast cells preferentially utilize relatively error-free TLS polymerase(s) to bypass given lesions, and that the mutagenic TLS polymerase may serve as a backup. Interestingly, if Polη is unable to serve as a TLS polymerase under certain circumstances, it may be counter-active. The cooperation among TLS polymerases may strike a balance between survival and stress-induced mutagenesis. These observations indicate that specialized Y-family DNA polymerases have evolved to deal with different types of environmental genotoxic stresses.

Reference Type
Journal Article
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Wang Z, Xiao W
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