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1
Recognition of partially-folded mitochondrial malate dehydrogenase by GroEL. Steady and time-dependent emission anisotropy measurements.GroEL对部分折叠的线粒体苹果酸脱氢酶的识别。稳态和时间依赖性发射各向异性测量。
Protein Sci. 1998 Dec;7(12):2587-94. doi: 10.1002/pro.5560071212.
2
Binding, encapsulation and ejection: substrate dynamics during a chaperonin-assisted folding reaction.结合、封装与排出:伴侣蛋白辅助折叠反应过程中的底物动力学
J Mol Biol. 1997 Mar 7;266(4):656-64. doi: 10.1006/jmbi.1996.0815.
3
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Biochim Biophys Acta. 1999 May 18;1431(2):282-9. doi: 10.1016/s0167-4838(99)00050-3.
4
On the role of symmetrical and asymmetrical chaperonin complexes in assisted protein folding.关于对称和不对称伴侣蛋白复合物在辅助蛋白质折叠中的作用
Biol Chem. 1999 May;380(5):531-40. doi: 10.1515/BC.1999.068.
5
Conformational changes at the nucleotide binding of GroEL induced by binding of protein substrates. Luminescence studies.蛋白质底物结合诱导GroEL核苷酸结合处的构象变化。发光研究。
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6
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Folding of malate dehydrogenase inside the GroEL-GroES cavity.苹果酸脱氢酶在GroEL-GroES腔内的折叠。
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Plant glyoxysomal but not mitochondrial malate dehydrogenase can fold without chaperone assistance.植物乙醛酸循环体苹果酸脱氢酶而非线粒体苹果酸脱氢酶无需伴侣蛋白协助就能折叠。
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Refolding and recognition of mitochondrial malate dehydrogenase by Escherichia coli chaperonins cpn 60 (groEL) and cpn10 (groES).大肠杆菌伴侣蛋白cpn 60(groEL)和cpn10(groES)对线粒体苹果酸脱氢酶的重折叠与识别
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1
Efficient preparation and properties of mRNAs containing a fluorescent cap analog: Anthraniloyl-m(7)GpppG.含荧光帽类似物:邻氨基苯甲酰 - m(7)GpppG的mRNA的高效制备及其性质
Translation (Austin). 2015 Feb 2;3(1):e988538. doi: 10.4161/21690731.2014.988538. eCollection 2015 Jan-Jun.
2
Topologies of a substrate protein bound to the chaperonin GroEL.与伴侣蛋白GroEL结合的底物蛋白的拓扑结构。
Mol Cell. 2007 May 11;26(3):415-26. doi: 10.1016/j.molcel.2007.04.004.

本文引用的文献

1
Analysis of fluorescence anisotropy decays by a least square method.用最小二乘法分析荧光各向异性衰减。
Biophys Chem. 1979 Jul;10(1):91-104. doi: 10.1016/0301-4622(79)80009-5.
2
Conformational changes at the nucleotide binding of GroEL induced by binding of protein substrates. Luminescence studies.蛋白质底物结合诱导GroEL核苷酸结合处的构象变化。发光研究。
J Biol Chem. 1997 Aug 8;272(32):19645-8. doi: 10.1074/jbc.272.32.19645.
3
Activation of partially folded mitochondrial malate dehydrogenase by thioredoxin.硫氧还蛋白对部分折叠的线粒体苹果酸脱氢酶的激活作用。
Eur J Biochem. 1997 May 15;246(1):127-32. doi: 10.1111/j.1432-1033.1997.t01-1-00127.x.
4
Molten globule and protein folding.熔球态与蛋白质折叠
Adv Protein Chem. 1995;47:83-229. doi: 10.1016/s0065-3233(08)60546-x.
5
Interaction of 70-kDA heat shock cognate protein with peptides and myo-inositol monophosphatase.70-kDA热休克同源蛋白与肽及肌醇单磷酸酶的相互作用
J Biol Chem. 1994 Jan 7;269(1):266-71.
6
Fluorescence properties of o-aminobenzoyl-labeled proteins.
Anal Biochem. 1993 Sep;213(2):229-33. doi: 10.1006/abio.1993.1414.
7
Refined crystal structure of mitochondrial malate dehydrogenase from porcine heart and the consensus structure for dicarboxylic acid oxidoreductases.猪心肌线粒体苹果酸脱氢酶的精细晶体结构及二羧酸氧化还原酶的共有结构。
Biochemistry. 1994 Mar 1;33(8):2078-88. doi: 10.1021/bi00174a014.
8
The stability and hydrophobicity of cytosolic and mitochondrial malate dehydrogenases and their relation to chaperonin-assisted folding.
FEBS Lett. 1994 May 16;344(2-3):129-35. doi: 10.1016/0014-5793(94)00348-3.
9
Generation of a stable folding intermediate which can be rescued by the chaperonins GroEL and GroES.
FEBS Lett. 1994 Feb 14;339(1-2):45-9. doi: 10.1016/0014-5793(94)80381-1.
10
Truncated GroEL monomer has the ability to promote folding of rhodanese without GroES and ATP.截短的GroEL单体能够在没有GroES和ATP的情况下促进硫氰酸酶的折叠。
FEBS Lett. 1993 Dec 27;336(2):363-7. doi: 10.1016/0014-5793(93)80838-l.

GroEL对部分折叠的线粒体苹果酸脱氢酶的识别。稳态和时间依赖性发射各向异性测量。

Recognition of partially-folded mitochondrial malate dehydrogenase by GroEL. Steady and time-dependent emission anisotropy measurements.

作者信息

Churchich J E

机构信息

Department of Biochemistry, University of Tennessee, Knoxville 37996-0840, USA.

出版信息

Protein Sci. 1998 Dec;7(12):2587-94. doi: 10.1002/pro.5560071212.

DOI:10.1002/pro.5560071212
PMID:9865953
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2143879/
Abstract

The binding of partially-folded mitochondrial malate dehydrogenase (mMDH) to GroEL was assessed by steady and nanosecond emission spectroscopy. Partially-folded intermediates of mMDH show significant residual secondary structure when examined by CD spectroscopy in the far UV. They bind the extrinsic fluorescent probe ANS and the protein-ANS complexes display a rotational correlation time of 19 ns. Similar rotational correlation time (phi = 18.6 ns) was determined for partially-folded species tagged with anthraniloyl. GroEL recognizes partially-folded species with a K(D) approximately 60 nM. The rotational correlation time of the complex, i.e., GroEL-mMDH-ANT, approaches a value of 280 ns in the absence of ATP. Reactivation of mMDH-ANT by addition of GroEL and ATP brings about a significant decrease in the observed rotational correlation time. The results indicate that partially-folded malate dehydrogenase is rigidly trapped by GroEL in the absence of ATP, whereas addition of ATP facilitates reactivation and release of folded conformations endowed with catalytic activity.

摘要

通过稳态和纳秒发射光谱法评估了部分折叠的线粒体苹果酸脱氢酶(mMDH)与GroEL的结合。当在远紫外区通过圆二色光谱法检测时,mMDH的部分折叠中间体显示出显著的残余二级结构。它们结合外在荧光探针ANS,并且蛋白质-ANS复合物显示出19纳秒的旋转相关时间。用邻氨基苯甲酰标记的部分折叠物种测定出类似的旋转相关时间(φ = 18.6纳秒)。GroEL识别部分折叠物种,其解离常数(K(D))约为60纳摩尔。在没有ATP的情况下,复合物(即GroEL-mMDH-ANT)的旋转相关时间接近280纳秒。通过添加GroEL和ATP使mMDH-ANT重新活化,导致观察到的旋转相关时间显著降低。结果表明,在没有ATP的情况下,部分折叠的苹果酸脱氢酶被GroEL严格捕获,而添加ATP则促进具有催化活性的折叠构象的重新活化和释放。