Takeuchi Ryo, Oshige Masahiko, Uchida Makiyo, Ishikawa Gen, Takata Kei-ichi, Shimanouchi Kaori, Kanai Yoshihiro, Ruike Tatsushi, Morioka Hiroshi, Sakaguchi Kengo
Department of Applied Biological Science, Faculty of Science and Technology, Tokyo University of Science, Noda-shi, Chiba-ken 278-8510, Japan.
Biochem J. 2004 Sep 1;382(Pt 2):535-43. doi: 10.1042/BJ20031833.
Studies on the biochemical properties of very-large-size eukaryotic DNA polymerases have been limited by the difficulty in obtaining sufficient purified forms of each enzyme. Our aim was to determine and elucidate the biochemical properties of one such polymerase, pol zeta (DNA polymerase zeta) from Drosophila melanogaster (Dmpol zeta). Using an REV1 (UV-revertible gene 1) protein-affinity column, we have isolated the enzyme directly from Drosophila embryos. Completely purified Dmpol zeta was found to have a molecular mass of approx. 240 kDa, and to be sensitive to aphidicolin and resistant to ddTTP (2',3'-dideoxythymidine-5-triphosphate) and N-ethylmaleimide. The enzyme has a preference for poly(dA)/oligo(dT)(10:1) as a template primer and has high processivity for DNA synthesis. Moreover, Dmpol zeta showed significantly higher fidelity compared with Rattus norvegicus DNA polymerase, an error-prone DNA polymerase, in an M13 forward mutation assay. The activities of bypassing pyrimidine dimers and (6-4) photoproducts and extending from mismatched primer-template termini in (6-4) photoproduct by Dmpol zeta were not detected. Drosophila REV7 interacted with Dmpol zeta in vitro, but did not influence the DNA synthesis activity of Dmpol zeta. The present study is the first report about characterization of purified pol zeta from multicellular organisms, and the second concerning the characterization of yeast pol zeta.
对超大尺寸真核生物DNA聚合酶生化特性的研究一直受到难以获得足够纯化形式的每种酶的限制。我们的目标是确定并阐明一种这样的聚合酶——来自黑腹果蝇的聚合酶ζ(DNA聚合酶ζ,Dmpolζ)的生化特性。我们使用REV1(紫外线可回复基因1)蛋白亲和柱,直接从果蝇胚胎中分离出了这种酶。发现完全纯化的Dmpolζ分子量约为240 kDa,对阿非迪霉素敏感,对ddTTP(2',3'-双脱氧胸苷-5-三磷酸)和N-乙基马来酰亚胺具有抗性。该酶优先选择聚(dA)/寡聚(dT)(10:1)作为模板引物,并且在DNA合成中具有高持续合成能力。此外,在M13正向突变试验中,与易出错的DNA聚合酶——褐家鼠DNA聚合酶相比,Dmpolζ显示出显著更高的保真度。未检测到Dmpolζ绕过嘧啶二聚体和(6-4)光产物以及从(6-4)光产物中错配的引物-模板末端延伸的活性。果蝇REV7在体外与Dmpolζ相互作用,但不影响Dmpolζ的DNA合成活性。本研究是关于从多细胞生物中纯化的聚合酶ζ特性的首次报道,也是关于酵母聚合酶ζ特性的第二篇报道。