Evidence implying DNA polymerase beta function in excision repair.

Abstract:

Comparison was made of the ability of calf thymus DNA polymerases ...
Comparison was made of the ability of calf thymus DNA polymerases alpha and beta to replicate the following templates: native E. coli CR-34 DNA (T-DNA), calf thymus DNA activated by DNase I (act.DNA), BU-DNA (from E. coli CR-34 cells cultured on BUdR-containing medium) with damages resulting from incomplete excision repair, as well as thermally denatured act.DNA and BU-DNA (s.s.act.DNA and s.s.BU-DNA). 3H-TTP incorporation during extensive replication of act.DNA was similar for both enzymes, being, as expected, 40 times higher than for T-DNA. Likewise, the differences in the yield of the s.s.act.DNA or s.s.BU-DNA replication between both enzymes were negligible. In contrast, damaged native DNA was 6 - 30 times more extensively replicated by DNA polymerase beta than alpha. We propose that this is due to the greater ability of DNA polymerase beta compared with alpha to replicate single-stranded gaps, the presence of which is more likely in damaged BU-DNA than in T-DNA and act.DNA.

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