Eukaryotic polymerases iota and zeta act sequentially to bypass DNA lesions
- PMID: 10984059
- DOI: 10.1038/35023030
Eukaryotic polymerases iota and zeta act sequentially to bypass DNA lesions
Abstract
DNA lesions can often block DNA replication, so cells possess specialized low-fidelity, and often error-prone, DNA polymerases that can bypass such lesions and promote replication of damaged DNA. The Saccharomyces cerevisiae RAD30 and human hRAD30A encode Pol eta, which bypasses a cis-syn thymine-thymine dimer efficiently and accurately. Here we show that a related human gene, hRAD30B, encodes the DNA polymerase Pol iota, which misincorporates deoxynucleotides at a high rate. To bypass damage, Pol iota specifically incorporates deoxynucleotides opposite highly distorting or non-instructional DNA lesions. This action is combined with that of DNA polymerase Pol zeta, which is essential for damage-induced mutagenesis, to complete the lesion bypass. Pol zeta is very inefficient in inserting deoxynucleotides opposite DNA lesions, but readily extends from such deoxynucleotides once they have been inserted. Thus, in a new model for mutagenic bypass of DNA lesions in eukaryotes, the two DNA polymerases act sequentially: Pol iota incorporates deoxynucleotides opposite DNA lesions, and Pol zeta functions as a mispair extender.
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