微秒子域运动与鼠朊蛋白的折叠和错误折叠。

Microsecond sub-domain motions and the folding and misfolding of the mouse prion protein.

机构信息

National Centre for Biological Sciences, Tata Institute of Fundamental Research, Bengaluru, India.

Indian Institute of Science Education and Research, Pune, India.

出版信息

Elife. 2019 Apr 26;8:e44766. doi: 10.7554/eLife.44766.

DOI:10.7554/eLife.44766

PMID:31025940

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6516828/

Abstract

Protein aggregation appears to originate from partially unfolded conformations that are sampled through stochastic fluctuations of the native protein. It has been a challenge to characterize these fluctuations, under native like conditions. Here, the conformational dynamics of the full-length (23-231) mouse prion protein were studied under native conditions, using photoinduced electron transfer coupled to fluorescence correlation spectroscopy (PET-FCS). The slowest fluctuations could be associated with the folding of the unfolded state to an intermediate state, by the use of microsecond mixing experiments. The two faster fluctuations observed by PET-FCS, could be attributed to fluctuations within the native state ensemble. The addition of salt, which is known to initiate the aggregation of the protein, resulted in an enhancement in the time scale of fluctuations in the core of the protein. The results indicate the importance of native state dynamics in initiating the aggregation of proteins.

摘要

蛋白质聚集似乎起源于部分展开的构象，这些构象通过天然蛋白质的随机波动来采样。在类似天然的条件下，对这些波动进行特征描述一直是一个挑战。在这里，使用光诱导电子转移与荧光相关光谱（PET-FCS）结合的方法，在天然条件下研究了全长（23-231）小鼠朊病毒蛋白的构象动力学。通过使用微秒混合实验，可以将最慢的波动与从展开状态到中间状态的折叠相关联。通过 PET-FCS 观察到的两个较快的波动，可以归因于天然状态整体内的波动。添加盐，已知盐会引发蛋白质的聚集，导致蛋白质核心的波动时间尺度增强。结果表明，天然状态动力学在引发蛋白质聚集方面的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f3f6/6516828/40ed4f591c87/elife-44766-fig1.jpg

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微秒子域运动与鼠朊蛋白的折叠和错误折叠。

Microsecond sub-domain motions and the folding and misfolding of the mouse prion protein.

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