活细胞中蛋白质折叠稳定性和动力学的成像。

Protein folding stability and dynamics imaged in a living cell.

机构信息

Department of Chemistry, University of Illinois, Urbana, Illinois, USA.

出版信息

Nat Methods. 2010 Apr;7(4):319-23. doi: 10.1038/nmeth.1435. Epub 2010 Feb 28.

PMID:20190760

Abstract

Biomolecular dynamics and stability are predominantly investigated in vitro and extrapolated to explain function in the living cell. We present fast relaxation imaging (FreI), which combines fluorescence microscopy and temperature jumps to probe biomolecular dynamics and stability inside a single living cell with high spatiotemporal resolution. We demonstrated the method by measuring the reversible fast folding kinetics as well as folding thermodynamics of a fluorescence resonance energy transfer (FRET) probe-labeled phosphoglycerate kinase construct in two human cell lines. Comparison with in vitro experiments at 23-49 degrees C showed that the cell environment influences protein stability and folding rate. FReI should also be applicable to the study of protein-protein interactions and heat-shock responses as well as to comparative studies of cell populations or whole organisms.

摘要

生物分子的动力学和稳定性主要在体外进行研究，并被推断用于解释活细胞中的功能。我们提出了快速弛豫成像（FreI）方法，它结合了荧光显微镜和温度跳跃，以高时空分辨率在单个活细胞内探测生物分子的动力学和稳定性。我们通过测量荧光共振能量转移（FRET）探针标记的磷酸甘油酸激酶构建体的可逆快速折叠动力学以及折叠热力学，在两种人类细胞系中证明了该方法。与 23-49°C 的体外实验相比，细胞环境会影响蛋白质的稳定性和折叠速率。FReI 也应该适用于蛋白质-蛋白质相互作用和热休克反应的研究，以及细胞群体或整个生物体的比较研究。

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活细胞中蛋白质折叠稳定性和动力学的成像。

Protein folding stability and dynamics imaged in a living cell.

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