利用雅尔津斯基等式的生物聚合物的计算机三维原子力显微镜图像

Computed Three-Dimensional Atomic Force Microscopy Images of Biopolymers Using the Jarzynski Equality.

作者信息

Sumikama Takashi, Federici Canova Filippo, Gao David Z, Penedo Marcos, Miyazawa Keisuke, Foster Adam S, Fukuma Takeshi

机构信息

PRESTO, JST, Kawaguchi, Saitama 332-0012, Japan.

Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, Kanazawa 920-1192, Japan.

出版信息

J Phys Chem Lett. 2022 Jun 9;13(23):5365-5371. doi: 10.1021/acs.jpclett.2c01093.

DOI:10.1021/acs.jpclett.2c01093

PMID:35678499

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9208010/

Abstract

Three-dimensional atomic force microscopy (3D-AFM) has resolved three-dimensional distributions of solvent molecules at solid-liquid interfaces at the subnanometer scale. This method is now being extended to the imaging of biopolymer assemblies such as chromosomes or proteins in cells, with the expectation of being able to resolve their three-dimensional structures. Here, we have developed a computational method to simulate 3D-AFM images of biopolymers by using the Jarzynski equality. It is found that some parts of the fiber structure of biopolymers are indeed resolved in the 3D-AFM image. The dependency of 3D-AFM images on the vertical scanning velocity is investigated, and optimum scanning velocities are found. It is also clarified that forces in nonequilibrium processes are measured in 3D-AFM measurements when the dynamics of polymers are slower than the scanning of the probe.

摘要

三维原子力显微镜（3D-AFM）已在亚纳米尺度上解析了固液界面处溶剂分子的三维分布。该方法目前正被扩展用于对细胞中的生物聚合物组装体（如染色体或蛋白质）进行成像，有望解析它们的三维结构。在此，我们开发了一种计算方法，通过使用雅津斯基等式来模拟生物聚合物的3D-AFM图像。结果发现，生物聚合物纤维结构的某些部分确实在3D-AFM图像中得到了解析。研究了3D-AFM图像对垂直扫描速度的依赖性，并找到了最佳扫描速度。还阐明了当聚合物的动力学比探针扫描慢时，在3D-AFM测量中可以测量非平衡过程中的力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0e19/9208010/d741db2de96a/jz2c01093_0001.jpg

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利用雅尔津斯基等式的生物聚合物的计算机三维原子力显微镜图像

Computed Three-Dimensional Atomic Force Microscopy Images of Biopolymers Using the Jarzynski Equality.

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