游离态和产物态甲硫氨酰 - tRNA合成酶的结构表征揭示了诱导契合的配体识别机制。

Structural characterization of free-state and product-state methionyl-tRNA synthetase reveals an induced-fit ligand-recognition mechanism.

作者信息

Wang Wei, Qin Bo, Wojdyla Justyna Aleksandra, Wang Meitian, Gao Xiaopan, Cui Sheng

机构信息

MOH Key Laboratory of Systems Biology of Pathogens, Institute of Pathogen Biology, Chinese Academy of Medical Science, No. 9 Dong Dan San Tiao, Dong Cheng Qu, Beijing 100730, People's Republic of China.

Paul Scherrer Institute, Swiss Light Source, CH-5232 Villigen, Switzerland.

出版信息

IUCrJ. 2018 Jun 22;5(Pt 4):478-490. doi: 10.1107/S2052252518008217. eCollection 2018 Jul 1.

DOI:10.1107/S2052252518008217

PMID:30002848

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6038951/

Abstract

(MTB) caused 10.4 million cases of tuberculosis and 1.7 million deaths in 2016. The incidence of multidrug-resistant and extensively drug-resistant MTB is becoming an increasing threat to public health and the development of novel anti-MTB drugs is urgently needed. Methionyl-tRNA synthetase (MetRS) is considered to be a valuable drug target. However, structural characterization of MetRS (MtMetRS) was lacking for decades, thus hampering drug design. Here, two high-resolution crystal structures of MtMetRS are reported: the free-state structure (apo form; 1.9 Å resolution) and a structure with the intermediate product methionyl-adenylate (Met-AMP) bound (2.4 Å resolution). It was found that free-state MtMetRS adopts a previously unseen conformation that has never been observed in other MetRS homologues. The pockets for methionine and AMP are not formed in free-state MtMetRS, suggesting that it is in a nonproductive conformation. Combining these findings suggests that MtMetRS employs an induced-fit mechanism in ligand binding. By comparison with the structure of human cytosolic MetRS, additional pockets specific to MtMetRS that could be used for anti-MTB drug design were located.

摘要

2016年，结核分枝杆菌（MTB）引发了1040万例结核病，导致170万人死亡。耐多药和广泛耐药MTB的发病率对公共卫生构成了日益严重的威胁，因此迫切需要开发新型抗MTB药物。甲硫氨酰-tRNA合成酶（MetRS）被认为是一个有价值的药物靶点。然而，几十年来一直缺乏结核分枝杆菌甲硫氨酰-tRNA合成酶（MtMetRS）的结构表征，这阻碍了药物设计。在此，报道了MtMetRS的两个高分辨率晶体结构：游离态结构（无配体形式；分辨率为1.9 Å）和结合中间产物甲硫氨酰-腺苷酸（Met-AMP）的结构（分辨率为2.4 Å）。研究发现，游离态MtMetRS采用了一种在其他MetRS同源物中从未见过的构象。在游离态MtMetRS中，甲硫氨酸和AMP的结合口袋并未形成，这表明它处于一种无活性的构象。综合这些发现表明，MtMetRS在配体结合过程中采用了诱导契合机制。通过与人类胞质MetRS的结构进行比较，确定了MtMetRS特有的、可用于抗MTB药物设计的其他口袋。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/97d8/6038951/a795213ae7d7/m-05-00478-fig1.jpg

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游离态和产物态甲硫氨酰 - tRNA合成酶的结构表征揭示了诱导契合的配体识别机制。

Structural characterization of free-state and product-state methionyl-tRNA synthetase reveals an induced-fit ligand-recognition mechanism.

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