首页> 外文OA文献 >Crystal structures of CheY from Thermotoga maritima do not support conventional explanations for the structural basis of enhanced thermostability.

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Crystal structures of CheY from Thermotoga maritima do not support conventional explanations for the structural basis of enhanced thermostability.

机译：滨海嗜热菌的CheY晶体结构不支持传统的解释，即增强热稳定性的结构基础。

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摘要

The crystal structure of CheY protein from Thermotoga maritima has been determined in four crystal forms with and without Mg++ bound, at up to 1.9 A resolution. Structural comparisons with CheY from Escherichia coli shows substantial similarity in their folds, with some concerted changes propagating away from the active site that suggest how phosphorylated CheY, a signal transduction protein in bacterial chemotaxis, is recognized by its targets. A highly conserved segment of the protein (the "y-turn loop," residues 55-61), previously suggested to be a rigid recognition determinant, is for the first time seen in two alternative conformations in the different crystal structures. Although CheY from Thermotoga has much higher thermal stability than its mesophilic counterparts, comparison of structural features previously proposed to enhance thermostability such as hydrogen bonds, ion pairs, compactness, and hydrophobic surface burial would not suggest it to be so.

机译：已从具有和不具有Mg ++结合的四种晶体形式确定了来自滨海嗜热菌的CheY蛋白的晶体结构，分辨率高达1.9A。与来自大肠杆菌的CheY的结构比较显示，它们的折叠倍数基本相似，并且从活性位点传播出一些一致的变化，这表明磷酸化的CheY是细菌趋化性中的信号转导蛋白，如何被其靶标识别。先前被认为是刚性识别决定簇的蛋白质的高度保守的片段（“ y-turn环”，残基55-61），首次在不同的晶体结构中以两种替代构象出现。尽管来自Thermotoga的CheY具有比其嗜温同类产品更高的热稳定性，但是先前提出的增强热稳定性的结构特征（如氢键，离子对，致密性和疏水性表面埋藏）的比较并不表明是这样。

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Usher, K. C.; de la Cruz, A. F.; Dahlquist, F. W.; Swanson, R. V.; Simon, M. I.; Remington, S. J.;
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年度 2008
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1. The crystal structure of dihydrofolate reductase from Thermotoga maritima: molecular features of thermostability. [J] . Dams T, Auerbach G, Bader G, Journal of Molecular Biology . 2000,第3期

机译：滨海嗜热菌的二氢叶酸还原酶的晶体结构：热稳定性的分子特征。
2. The crystal structure of an activated Thermotoga maritima CheY with N-terminal region of FliM [J] . Ahn D.-R., Song H., Kim J., International Journal of Biological Macromolecules: Structure, Function and Interactions . 2013,第Null期

机译：具有FliM N端区域的已激活嗜热栖热球菌CheY的晶体结构
3. The crystal structure of an activated Thermotoga maritima CheY with N-terminal region of FliM [J] . Ahn D.-R., Song H., Kim J., International Journal of Biological Macromolecules: Structure, Function and Interactions . 2013,第Null期

机译：具有FliM N端区域的已激活嗜热栖热球菌CheY的晶体结构
4. Comparison of Crystal and Phonon Structures for Polycrystalline BaSi_2 Films Grown by SPE Method on Si(111) Substrate [C] . GALKIN Nikolay G., FOMIN Dmitrii V., DUBOV Viktor L., Asia school-conference on physics and technology of nanostructured materials . 2018

机译：Si（111）衬底上用SPE方法生长的多晶BaSi_2薄膜的晶体和声子结构的比较
5. Structural and thermodynamic basis of the thermostability of CheY from the extreme thermophile Thermotoga maritima [D] . Deutschman, William Alaric 2001

机译：极端嗜热菌嗜热球菌Chey热稳定性的结构和热力学基础
6. Crystal structures of CheY from Thermotoga maritima do not support conventional explanations for the structural basis of enhanced thermostability. [O] . K. C. Usher, A. F. de la Cruz, F. W. Dahlquist, 2002

机译：滨海嗜热菌的CheY晶体结构不支持传统的解释，即增强热稳定性的结构基础。
7. Structure of a diguanylate cyclase from Thermotoga maritima: insights into activation, feedback inhibition and thermostability. [O] . Angeline Deepthi, Chong Wai Liew, Zhao-Xun Liang, 2014

机译：来自海栖热袍菌（Thermotoga maritima）的二鸟苷酸环化酶的结构：对活化，反馈抑制和热稳定性的见解。

Crystal structures of CheY from Thermotoga maritima do not support conventional explanations for the structural basis of enhanced thermostability.

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