The lower hydrolysis of ATP by the stress protein GroEL is a major factor responsible for the diminished chaperonin activity at low temperature.

Mendoza JA; Dulin P; Warren T

首页> 外文期刊>Cryobiology: International Journal of Low Temperature Biology and Medicine >The lower hydrolysis of ATP by the stress protein GroEL is a major factor responsible for the diminished chaperonin activity at low temperature.

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The lower hydrolysis of ATP by the stress protein GroEL is a major factor responsible for the diminished chaperonin activity at low temperature.

机译：应激蛋白GroEL对ATP的较低水解是导致低温下伴侣蛋白活性降低的主要因素。

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The chaperonins GroEL and GroES were shown to facilitate the refolding of urea-unfolded rhodanese in an ATP-dependent process at 25 or 37 degrees C. A diminished chaperonin activity was observed at 10 degrees C, however. At low temperature, GroEL retains its ability to form a complex with urea-unfolded rhodanese or with GroES. GroEL is also able to bind ATP at 10 degrees C. Interestingly, the ATPase activity of GroEL was highly decreased at low temperatures. Hydrolysis of ATP by GroEL was 60% less at 10 degrees C than at 25 degrees C. We conclude that the reduced hydrolysis of ATP by GroEL is a major but perhaps not the only factor responsible for the diminished chaperonin activity at 10 degrees C. GroEL may function primarily at higher temperatures in which the ability of GroEL to hydrolyze ATP is not compromised. Copyright 2000 Academic Press.

机译：伴侣蛋白GroEL和GroES已显示出在25或37摄氏度下以ATP依赖性过程促进未折叠尿素的若丹丹的再折叠。然而，在10摄氏度下观察到伴侣蛋白活性降低。在低温下，GroEL保留了与未折叠尿素的罗丹明或GroES形成复合物的能力。 GroEL还能够在10摄氏度下结合ATP。有趣的是，GroEL的ATPase活性在低温下大大降低。 GroEL在10摄氏度下的ATP水解比25摄氏度下低60％。我们得出的结论是，GroEL降低ATP的水解是一个主要的因素，但也许不是造成10摄氏度时伴侣蛋白活性降低的唯一因素。GroEL可能主要在较高的温度下起作用，而GroEL水解ATP的能力没有受到损害。版权所有2000学术出版社。

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《Cryobiology: International Journal of Low Temperature Biology and Medicine》 |2000年第4期|共5页
作者
Mendoza JA; Dulin P; Warren T;
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正文语种 eng
中图分类生命科学总论;
关键词
Adenosine Triphosphate; Bacterial Proteins; GroEL Protein metabolism; GroEL Protein; 腺苷三磷酸; 细菌蛋白质类;

机译：Adenosine Triphosphate;Bacterial Proteins;GroEL Protein metabolism;GroEL Protein;腺苷三磷酸;细菌蛋白质类;

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1. The lower hydrolysis of ATP by the stress protein GroEL is a major factor responsible for the diminished chaperonin activity at low temperature. [J] . Mendoza JA, Dulin P, Warren T Cryobiology: International Journal of Low Temperature Biology and Medicine . 2000,第4期

机译：应激蛋白GroEL对ATP的较低水解是导致低温下伴侣蛋白活性降低的主要因素。
2. Asp-52 in Combination with Asp-398 Plays a Critical Role in ATP Hydrolysis of Chaperonin GroEL [J] . Ayumi Koike-Takeshita, Kaoru Mitsuoka, Hideki Taguchi The Journal of biological chemistry . 2014,第43期

机译：ASP-52与ASP-398组合起在ATP水解的伴侣素腹股沟
3. The role of ATP hydrolysis in the function of the chaperonin GroEL: dynamic complex formation with GroES [J] . Furutsu Yoshinobu, Hongo Kunihiro, Kawata Yasushi, FEBS Letters . 1995,第2a3期

机译：ATP水解在伴侣蛋白GroEL功能中的作用：与GroES形成动态复合物
4. The H+-ATPase Activity and Redox System in Plasma Membranes from Roots of Grafted and Own-rooted Watermelon under Low Temperature Stress [C] . LIU Hui-ying, DIAO Ming, ZHU Zhu-jun Conference on key technology of horticulture . 2011

机译：低温胁迫下嫁接和自生西瓜根部质膜的H + -ATPase活性和氧化还原系统
5. The coordinated ATP hydrolysis activity of the Escherichia coli RecA protein. [D] . Cox, Julia M. 2007

机译：大肠杆菌RecA蛋白的协同ATP水解活性。
6. The GroEL chaperonin: a protein machine with pistons driven by ATP binding and hydrolysis [O] . George H. Lorimer, Xue Fei, Xiang Ye 2018

机译：GroEL伴侣蛋白：一种蛋白质机器其活塞由ATP结合和水解驱动
7. The GroEL chaperonin: a protein machine with pistons driven by ATP binding and hydrolysis [O] . George H. Lorimer, Xue Fei, Xiang Ye 2018

机译：腹股沟伴侣蛋白：具有由ATP结合和水解驱动的活塞的蛋白质机器

The lower hydrolysis of ATP by the stress protein GroEL is a major factor responsible for the diminished chaperonin activity at low temperature.

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