电场对胰岛素B链构象的影响。

Electric field effects on insulin chain-B conformation.

作者信息

Budi Akin, Legge F Sue, Treutlein Herbert, Yarovsky Irene

机构信息

Applied Physics, School of Applied Sciences, RMIT University, GPO Box 2476V, Melbourne, Victoria, 3001, Australia.

出版信息

J Phys Chem B. 2005 Dec 1;109(47):22641-8. doi: 10.1021/jp052742q.

DOI:10.1021/jp052742q

PMID:16853947

Abstract

The response of proteins to different forms of stress continues to be a topic of major interest, especially with the proliferation of electromagnetic devices conjectured to have detrimental effects on human health. In this paper, we have performed molecular dynamics simulations on insulin chain-B under the influence of both static and oscillating electric fields, ranging from 10(7) to 10(9) V/m. We have found that both variants have an effect on the normal behavior of the protein, with oscillating fields being more disruptive to the structure as compared to static fields of similar effective strength. The application of a static field had a stabilizing effect on the secondary structure, restricting the inherent flexibility that is crucial for insulin's biological activity.

摘要

蛋白质对不同形式应激的反应仍然是一个备受关注的主要话题，尤其是随着据推测对人体健康有有害影响的电磁设备的激增。在本文中，我们对胰岛素B链在10⁷至10⁹V/m的静态和振荡电场影响下进行了分子动力学模拟。我们发现这两种电场变体都会对蛋白质的正常行为产生影响，与具有相似有效强度的静态电场相比，振荡电场对结构的破坏更大。静态电场的施加对二级结构有稳定作用，限制了对胰岛素生物活性至关重要的固有灵活性。

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电场对胰岛素B链构象的影响。

Electric field effects on insulin chain-B conformation.

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