Conformational landscapes for KMSKS loop in tyrosyl-tRNA synthetases.

Journal of structural and functional genomics Pub Date : 2014-06-01 Epub Date: 2014-04-11 DOI:10.1007/s10969-014-9178-x

Manish Datt, Amit Sharma

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引用次数: 14

Abstract

Protein synthesis requires accurate charging of tRNA with cognate amino acid as catalyzed by aminoacyl-tRNA synthetases. Crystal structures of tyrosyl-tRNA synthetase (YRSs) show remarkably diverse conformations for the KMSKS loop, hitherto classified as "open" and "closed". This traditional classification implied that the KMSKS loop adopts different conformations depending on occupancy of active site pocket. Our structural analyses of evolutionarily derived ensemble of differentially ligated YRSs using quantitative structural criterion demonstrate intrinsic conformational heterogeneity in KMSKS loop that is independent of occupancy of active site. Differential centroid distance analyses between KMSKS motif and Rossmann fold domain reveal an intriguing bimodal distribution. These insights have been used for a more consistent re-classification of YRS conformations as either compact or extended. Our data not only reflect inherent dynamics within the conformational landscape of KMSKS loops, but also have implications for structure-based drug design efforts.

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酪氨酸- trna合成酶中KMSKS环的构象图。

蛋白质合成需要在氨基酰基-tRNA合成酶的催化下，将tRNA与同源氨基酸准确地结合在一起。酪氨酸- trna合成酶(YRSs)的晶体结构在KMSKS环中表现出明显的不同构象，迄今为止被分类为“开放”和“封闭”。这种传统的分类意味着KMSKS环根据活性位点口袋的占用而采用不同的构象。我们使用定量结构标准对进化衍生的差分连接YRSs集合进行了结构分析，结果表明KMSKS环中固有的构象异质性与活性位点的占用无关。KMSKS基序与Rossmann褶皱域之间的微分质心距离分析揭示了一个有趣的双峰分布。这些见解已用于更一致地将YRS构象重新分类为紧凑型或扩展型。我们的数据不仅反映了KMSKS环构象景观中的内在动力学，而且对基于结构的药物设计工作也有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of structural and functional genomics

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