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札幌病毒蛋白酶对底物特异性识别的结构基础

Structural basis for specific recognition of substrates by sapovirus protease.

作者信息

Yokoyama Masaru, Oka Tomoichiro, Kojima Hirotatsu, Nagano Tetsuo, Okabe Takayoshi, Katayama Kazuhiko, Wakita Takaji, Kanda Tadahito, Sato Hironori

机构信息

Pathogen Genomics Center, National Institute of Infectious Diseases Tokyo, Japan.

出版信息

Front Microbiol. 2012 Sep 5;3:312. doi: 10.3389/fmicb.2012.00312. eCollection 2012.

Abstract

Sapovirus (SaV) protease catalyzes cleavage of the peptide bonds at six sites of a viral polyprotein for the viral replication and maturation. However, the mechanisms by which the protease recognizes the distinct sequences of the six cleavage sites remain poorly understood. Here we examined this issue by computational and experimental approaches. A structural modeling and docking study disclosed two small clefts on the SaV protease cavity that allow the stable and functional binding of substrates to the catalytic cavity via aromatic stacking and electrostatic interactions. An information entropy study and a site-directed mutagenesis study consistently suggested variability of the two clefts under functional constraints. Using this information, we identified three chemical compounds that had structural and spatial features resembling those of the substrate amino acid residues bound to the two clefts and that exhibited an inhibitory effect on SaV protease in vitro. These results suggest that the two clefts provide structural base points to realize the functional binding of various substrates.

摘要

札幌病毒(SaV)蛋白酶催化病毒多聚蛋白六个位点的肽键裂解,以实现病毒的复制和成熟。然而,蛋白酶识别这六个裂解位点不同序列的机制仍知之甚少。在这里,我们通过计算和实验方法研究了这个问题。一项结构建模和对接研究揭示了SaV蛋白酶腔上的两个小裂缝,这使得底物能够通过芳香堆积和静电相互作用稳定且功能性地结合到催化腔。一项信息熵研究和定点诱变研究一致表明,在功能限制下这两个裂缝存在变异性。利用这些信息,我们鉴定出三种化合物,它们具有与结合到这两个裂缝的底物氨基酸残基相似的结构和空间特征,并且在体外对SaV蛋白酶表现出抑制作用。这些结果表明,这两个裂缝为实现各种底物的功能性结合提供了结构基点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5a30/3433708/016a114beedb/fmicb-03-00312-g001.jpg

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