Singh Kamalendra, Srivastava Aashish, Patel Smita S, Modak Mukund J
Department of Biochemistry and Molecular Biology, University of Medicine and Dentistry-New Jersey Medical School, Newark, New Jersey 07103, USA.
J Biol Chem. 2007 Apr 6;282(14):10594-604. doi: 10.1074/jbc.M611242200. Epub 2007 Jan 26.
The replication of the genome requires the removal of RNA primers from the Okazaki fragments and their replacement by DNA. In prokaryotes, this process is completed by DNA polymerase I by means of strand displacement DNA synthesis and 5 '-nuclease activity. Here, we demonstrate that the strand displacement DNA synthesis is facilitated by the collective participation of Ser(769), Phe(771), and Arg(841) present in the fingers subdomain of DNA polymerase I. The steady and presteady state kinetic analysis of the properties of appropriate mutant enzymes suggest that: (a) Ser(769) and Phe(771) together are involved in the strand separation via the formation of a flap structure, and (b) Arg(841) interacts with the template strand to achieve the optimal strand separation and DNA synthesis. The amino acid residues Ser(769) and Phe(771) are constituents of the O1-helix, which together with O and O2 helices form a 3-helix bundle structure. We note that this 3-helix bundle motif also exists in prokaryotic RNA polymerase. Thus in both DNA and RNA polymerases, this motif may have been adopted to achieve the strand separation function.
基因组的复制需要从冈崎片段中去除RNA引物并用DNA进行替换。在原核生物中,这一过程由DNA聚合酶I通过链置换DNA合成和5'-核酸酶活性完成。在此,我们证明DNA聚合酶I手指亚结构域中存在的Ser(769)、Phe(771)和Arg(841)共同参与促进了链置换DNA合成。对合适突变酶性质的稳态和前稳态动力学分析表明:(a) Ser(769)和Phe(771)共同通过形成一个瓣状结构参与链分离,并且(b) Arg(841)与模板链相互作用以实现最佳的链分离和DNA合成。氨基酸残基Ser(769)和Phe(771)是O1螺旋的组成部分,O1螺旋与O螺旋和O2螺旋一起形成一个三螺旋束结构。我们注意到这种三螺旋束基序也存在于原核生物RNA聚合酶中。因此,在DNA和RNA聚合酶中,可能都采用了这种基序来实现链分离功能。
