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RNA介导的朊病毒转化早期步骤的分子动力学模拟

Molecular dynamics simulations of early steps in RNA-mediated conversion of prions.

作者信息

Alred Erik J, Nguyen Michael, Martin Maggie, Hansmann Ulrich H E

机构信息

Chemistry and Biochemistry, University of Oklahoma, Norman, Oklahoma.

出版信息

Protein Sci. 2017 Aug;26(8):1524-1534. doi: 10.1002/pro.3178. Epub 2017 Apr 30.

DOI:10.1002/pro.3178
PMID:28425641
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5521516/
Abstract

The rate-limiting step in prion diseases is the initial transition of a prion protein from its native form into a mis-folded state in which the protein not only forms cell-toxic aggregates but also becomes infectious. Recent experiments implicate polyadenosine RNA as a possible agent for generating the initial seed. In order to understand the mechanism of RNA-mediated mis-folding and aggregation of prions, we dock polyadenosine RNA to mouse and human prion models. Changes in stability and secondary structure of the prions upon binding to polyadenosine RNA are evaluated by comparing molecular dynamics simulations of these complexes with that of the unbound prions.

摘要

朊病毒疾病中的限速步骤是朊病毒蛋白从其天然形式最初转变为错误折叠状态,在此状态下,该蛋白不仅会形成细胞毒性聚集体,还会具有传染性。最近的实验表明,聚腺苷酸RNA可能是产生初始种子的介质。为了了解RNA介导的朊病毒错误折叠和聚集的机制,我们将聚腺苷酸RNA与小鼠和人类朊病毒模型对接。通过比较这些复合物与未结合朊病毒的分子动力学模拟,评估朊病毒与聚腺苷酸RNA结合后其稳定性和二级结构的变化。

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