Masanori Ogawa, Aki Tosaka, Yasutomo Ito, Shonen Yoshida, Motoshi Suzuki
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引用次数: 20
Abstract
The O-helix of DNA polymerases has been implicated in substrate discrimination and replication fidelity. In this study, wild-type Thermus aquaticus DNA polymerase I (Taq pol I) and an O-helix mutant A661E was examined for their ability to discriminate between ribonucleotides and deoxyribonucleotides. Steady-state nucleotide extension kinetics were carried out using a template cytidine and each nucleotide dNTP and rGTP. Wild-type Taq pol I and A661E demonstrated similar Vmax and Km values for the correct nucleotide dGTP. However, A661E discriminated between incorrect and correct nucleotide less well than wild-type; discrimination was reduced by factors of 9.5-, 5.6- and 15-fold for dATP, dTTP and rGTP, respectively. These data suggest that A661E is efficient polymerases in the presence of the correct deoxynucleotide, dGTP, but it is impaired in ability to discriminate between correct and incorrect deoxyribonucleotides or between ribo- and deoxyribonucleotides. A structural model of Taq pol I is described in which the mutation A661E alters the interactions between the O-helix and the terminal two phosphate groups in the primer strand.
DNA聚合酶的o型螺旋与底物鉴别和复制保真度有关。在这项研究中,我们检测了野生型水生热鼠DNA聚合酶I (Taq pol I)和o -螺旋突变体A661E区分核糖核苷酸和脱氧核糖核苷酸的能力。采用模板胞苷和每个核苷酸dNTP和rGTP进行稳态核苷酸延伸动力学。野生型Taq pol I和A661E对正确的核苷酸dGTP表现出相似的Vmax和Km值。然而,A661E对错误和正确核苷酸的区分能力不如野生型;对dATP、dTTP和rGTP的歧视分别减少了9.5倍、5.6倍和15倍。这些数据表明,A661E在正确的脱氧核苷酸dGTP存在时是有效的聚合酶,但它区分正确和不正确的脱氧核糖核苷酸或区分核糖核苷酸和脱氧核糖核苷酸的能力受损。描述了Taq pol I的结构模型,其中突变A661E改变了o -螺旋与引物链末端两个磷酸基团之间的相互作用。
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