O'Farrell Damien, Trowbridge Rachel, Rowlands David, Jäger Joachim
Astbury Centre of Structural Molecular Biology, School of Biochemistry and Molecular Biology, University of Leeds, Leeds LS2 9JT, UK.
J Mol Biol. 2003 Feb 28;326(4):1025-35. doi: 10.1016/s0022-2836(02)01439-0.
Several crystal structures of the hepatitis C virus NS5B protein (genotype-1b, strain J4) complexed with metal ions, single-stranded RNA or nucleoside-triphosphates have been determined. These complexes illustrate how conserved amino acid side-chains, together with essential structural features within the active site, control nucleotide binding and likely mediate de-novo initiation. The incoming nucleotide interacts with several basic residues from an extension on the NS5B fingers domain, a beta-hairpin from the NS5B thumb domain and the C-terminal arm. The modular, bi-partite fingers domain carries a long binding groove which guides the template towards the catalytic site. The apo-polymerase structure provides unprecedented insights into potential non-nucleoside inhibitor binding sites located between palm and thumb near motif E, which is unique to RNA polymerases and reverse transcriptases.
已确定丙型肝炎病毒NS5B蛋白(1b基因型,J4株)与金属离子、单链RNA或核苷三磷酸复合的几种晶体结构。这些复合物说明了保守的氨基酸侧链如何与活性位点内的基本结构特征一起控制核苷酸结合并可能介导从头起始。进入的核苷酸与NS5B指状结构域延伸部分、NS5B拇指结构域的β-发夹和C末端臂上的几个碱性残基相互作用。模块化的双指状结构域带有一个长的结合槽,该结合槽将模板导向催化位点。无配体聚合酶结构为位于基序E附近的手掌和拇指之间的潜在非核苷抑制剂结合位点提供了前所未有的见解,基序E是RNA聚合酶和逆转录酶所特有的。