机械配体解联过程中工作依赖于牵拉速度。

Dependence of Work on the Pulling Speed in Mechanical Ligand Unbinding.

机构信息

Institute for Computational Science and Technology, QuangTrung Software City, Tan Chanh, Hiep Ward, District 12, Ho Chi Minh City 700000, Vietnam.

Institute of Physics, Polish Academy Science, Al. Lotnikow 32/46, Warsaw 02-668, Poland.

出版信息

J Phys Chem B. 2021 Aug 5;125(30):8325-8330. doi: 10.1021/acs.jpcb.1c01818. Epub 2021 Jul 22.

DOI:10.1021/acs.jpcb.1c01818

PMID:34292743

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8389893/

Abstract

In single-molecule force spectroscopy, the rupture force required for mechanical unfolding of a biomolecule or for pulling a ligand out of a binding site depends on the pulling speed and, in the linear Bell-Evans regime, ∼ ln(). Recently, it has been found that non-equilibrium work is better than in describing relative ligand binding affinity, but the dependence of on remains unknown. In this paper, we developed an analytical theory showing that in the linear regime, ∼ ln() + ln(), where and are constants. This quadratic dependence was also confirmed by all-atom steered molecular dynamics simulations of protein-ligand complexes. Although our theory was developed for ligand unbinding, it is also applicable to other processes, such as mechanical unfolding of proteins and other biomolecules, due to its universality.

摘要

在单分子力谱学中，机械展开生物分子或从结合位点拉出配体所需的断裂力取决于拉伸速度，并且在线性贝尔-埃文斯（Bell-Evans）区域内，∼ln()。最近，人们发现非平衡功比更好地描述相对配体结合亲和力，但仍未知与的依赖关系。在本文中，我们开发了一种分析理论，表明在线性区域内，∼ln() + ln()，其中和是常数。这种二次依赖关系也通过蛋白质-配体复合物的全原子导向分子动力学模拟得到了证实。尽管我们的理论是为配体解吸开发的，但由于其普遍性，它也适用于其他过程，例如蛋白质和其他生物分子的机械展开。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a942/8389893/57cf6f7ab300/jp1c01818_0002.jpg

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机械配体解联过程中工作依赖于牵拉速度。

Dependence of Work on the Pulling Speed in Mechanical Ligand Unbinding.

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