Abstract
DNA polymerase μ (pol μ) catalyzes nonhomologous end-joining in DNA double-stranded break repair. Pol μ consists of an amino-terminal BRCA1 carboxyl-terminal homology (BRCT) domain and a pol β-like region, which contains the catalytic site. By DNA cellulose column chromatography, using full-length pol μ and five different deletion mutants, we found that the amino-terminal region has double-stranded DNA (dsDNA)-binding activity. Pol μ without BRCT domain reduces the DNA polymerization activity when compared to full-length pol μ. Observation by atomic force microscopy showed that full-length pol μ binds to the ends and middle part of dsDNA. Pol μ lacking the amino-terminal region or with a mutation within the BRCT domain bound only to DNA ends, whereas the amino-terminal region with the BRCT domain bound to both the ends and the middle part of dsDNA (mpdDNA). Terminal deoxynucleotidyltransferase, which, like pol μ, belongs to the X family DNA polymerases, also bound to mpdDNA through its amino-terminal region.
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