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本文引用的文献

1
Functional domains of the ClpA and ClpX molecular chaperones identified by limited proteolysis and deletion analysis.通过有限蛋白酶解和缺失分析鉴定的ClpA和ClpX分子伴侣的功能结构域。
J Biol Chem. 2001 Aug 3;276(31):29420-9. doi: 10.1074/jbc.M103489200. Epub 2001 May 9.
2
Characterization of the N-terminal repeat domain of Escherichia coli ClpA-A class I Clp/HSP100 ATPase.大肠杆菌ClpA(一种I类Clp/HSP100 ATP酶)N端重复结构域的特性分析
Protein Sci. 2001 Mar;10(3):551-9. doi: 10.1110/ps.41401.
3
Genetic dissection of the roles of chaperones and proteases in protein folding and degradation in the Escherichia coli cytosol.伴侣蛋白和蛋白酶在大肠杆菌细胞质中蛋白质折叠与降解作用的遗传学剖析
Mol Microbiol. 2001 Apr;40(2):397-413. doi: 10.1046/j.1365-2958.2001.02383.x.
4
The chaperone function of ClpB from Thermus thermophilus depends on allosteric interactions of its two ATP-binding sites.嗜热栖热菌ClpB的伴侣功能取决于其两个ATP结合位点的变构相互作用。
J Mol Biol. 2001 Mar 2;306(4):889-99. doi: 10.1006/jmbi.2001.4455.
5
The truncated form of the bacterial heat shock protein ClpB/HSP100 contributes to development of thermotolerance in the cyanobacterium Synechococcus sp. strain PCC 7942.细菌热休克蛋白ClpB/HSP100的截短形式有助于蓝藻聚球藻属PCC 7942菌株耐热性的形成。
J Bacteriol. 2000 Dec;182(24):7092-6. doi: 10.1128/JB.182.24.7092-7096.2000.
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Structure and activity of ClpB from Escherichia coli. Role of the amino-and -carboxyl-terminal domains.大肠杆菌ClpB的结构与活性。氨基端和羧基端结构域的作用。
J Biol Chem. 2000 Dec 1;275(48):37565-71. doi: 10.1074/jbc.M005211200.
7
Unfolding and internalization of proteins by the ATP-dependent proteases ClpXP and ClpAP.由ATP依赖性蛋白酶ClpXP和ClpAP介导的蛋白质解折叠与内化
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8
Dynamics of substrate denaturation and translocation by the ClpXP degradation machine.ClpXP降解机器介导的底物变性与转运动力学
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10
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大肠杆菌ClpB氨基末端结构域的稳定性及相互作用

Stability and interactions of the amino-terminal domain of ClpB from Escherichia coli.

作者信息

Tek Vekalet, Zolkiewski Michal

机构信息

Department of Biochemistry, 104 Willard Hall, Kansas State University, Manhattan, KS 66506, USA.

出版信息

Protein Sci. 2002 May;11(5):1192-8. doi: 10.1110/ps.4860102.

DOI:10.1110/ps.4860102
PMID:11967375
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1819561/
Abstract

ClpB is a member of a multichaperone system in Escherichia coli (with DnaK, DnaJ, and GrpE) that reactivates aggregated proteins. The sequence of ClpB contains two ATP-binding regions that are enclosed between the N- and C-terminal extensions. Whereas it has been found that the N-terminal region of ClpB is essential for the chaperone activity, the structure of this region is not known, and its biochemical properties have not been studied. We expressed and purified the N-terminal fragment of ClpB (residues 1-147). Circular dichroism of the isolated N-terminal region showed a high content of alpha-helical structure. Differential scanning calorimetry showed that the N-terminal region of ClpB is thermodynamically stable and contains a single folding domain. The N-terminal domain is monomeric, as determined by gel-filtration chromatography, and the elution profile of the N-terminal domain does not change in the presence of the N-terminally truncated ClpB (ClpBDeltaN). This indicates that the N-terminal domain does not form strong contacts with ClpBDeltaN. Consistently, addition of the separated N-terminal domain does not reverse an inhibition of ATPase activity of ClpBDeltaN in the presence of casein. As shown by ELISA measurements, full-length ClpB and ClpBDeltaN bind protein substrates (casein, inactivated luciferase) with similar affinity. We also found that the isolated N-terminal domain of ClpB interacts with heat-inactivated luciferase. Taken together, our results indicate that the N-terminal fragment of ClpB forms a distinct domain that is not strongly associated with the ClpB core and is not required for ClpB interactions with other proteins, but may be involved in recognition of protein substrates.

摘要

ClpB是大肠杆菌中多分子伴侣系统(与DnaK、DnaJ和GrpE一起)的成员,该系统可使聚集的蛋白质重新激活。ClpB的序列包含两个ATP结合区域,它们被包裹在N端和C端延伸之间。虽然已经发现ClpB的N端区域对于伴侣活性至关重要,但其结构尚不清楚,其生化特性也未得到研究。我们表达并纯化了ClpB的N端片段(第1至147位氨基酸残基)。分离出的N端区域的圆二色性显示α-螺旋结构含量很高。差示扫描量热法表明,ClpB的N端区域在热力学上是稳定的,并且包含一个单一的折叠结构域。通过凝胶过滤色谱法测定,N端结构域是单体的,并且在存在N端截短的ClpB(ClpBDeltaN)的情况下,N端结构域的洗脱曲线没有变化。这表明N端结构域与ClpBDeltaN没有形成强相互作用。一致地,在存在酪蛋白的情况下,添加分离的N端结构域不会逆转ClpBDeltaN的ATP酶活性的抑制。如ELISA测量所示,全长ClpB和ClpBDeltaN以相似的亲和力结合蛋白质底物(酪蛋白、失活的荧光素酶)。我们还发现,分离出的ClpB的N端结构域与热失活的荧光素酶相互作用。综上所述,我们的结果表明,ClpB的N端片段形成一个独特的结构域,该结构域与ClpB核心没有强烈关联,并且ClpB与其他蛋白质相互作用时不需要该结构域,但可能参与蛋白质底物的识别。