Modeling the Opening SARS-CoV-2 Spike: an Investigation of its Dynamic Electro-Geometric Properties (preprint)

Anna Kucherova; Selma Strango; Shahar Sukenik; Maxime Theillard; Jan Verhoeff; Saskia D van Asten; Hetty J Bontkes; Siebe G Blok; Janwillem Duitman; Harm Jan Bogaard; Leo Heunks; Rene Lutter; Tom van der Poll; Juan J Garcia Vallejo; Qiqi Cao; Fangjin Chen; Yuqing Chen; Xuelian Cheng; Guohong Deng; Wenyu Ding; Yingmei Feng; Rui Gan; Chuang Guo; Shuai He; Chen Jiang; Juanran Liang; Yi-Min Li; Jun Lin; Yun Ling; Haofei Liu; Jianwei Liu; Nianping Liu; Yang Liu; Meng Luo; Qiang Ma; Qibing Song; Wujianan Sun; Gaoxiang Wang; Feng Wang; Ying Wang; Xiaofeng Wen; Qian Wu; Xiaowei Xie; Xinxin Xiong; Xudong Xing; Hao Xu; Chonghai Yin; Dongdong Yu; Kezhuo Yu; Biao Zhang; Tong Zhang; Jincun Zhao; Peidong Zhao; Jianfeng Zhou; Wei Zhou; Sujuan Zhong; Xiaosong Zhong; Shuye Zhang; Lin Zhu; Ping Zhu; Bing Zou; Jiahua Zou; Zengtao Zuo; Fan Bai; Xi Huang; Xiuwu Bian; Penghui Zhou; Qinghua Jiang; Zhiwei Huang; Jin-Xin Bei; Lai Wei; Xindong Liu; Tao Cheng; Xiangpan Li; Fu-Sheng Wang; Hongyang Wang; Bing Su; Kun Qu; Xiaoqun Wang; JieKai Chen; Ronghua Jin; Zemin Zhang

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Modeling the Opening SARS-CoV-2 Spike: an Investigation of its Dynamic Electro-Geometric Properties (preprint)

Anna Kucherova; Selma Strango; Shahar Sukenik; Maxime Theillard; Jan Verhoeff; Saskia D van Asten; Hetty J Bontkes; Siebe G Blok; Janwillem Duitman; Harm Jan Bogaard; Leo Heunks; Rene Lutter; Tom van der Poll; Juan J Garcia Vallejo; Qiqi Cao; Fangjin Chen; Yuqing Chen; Xuelian Cheng; Guohong Deng; Wenyu Ding; Yingmei Feng; Rui Gan; Chuang Guo; Shuai He; Chen Jiang; Juanran Liang; Yi-Min Li; Jun Lin; Yun Ling; Haofei Liu; Jianwei Liu; Nianping Liu; Yang Liu; Meng Luo; Qiang Ma; Qibing Song; Wujianan Sun; Gaoxiang Wang; Feng Wang; Ying Wang; Xiaofeng Wen; Qian Wu; Xiaowei Xie; Xinxin Xiong; Xudong Xing; Hao Xu; Chonghai Yin; Dongdong Yu; Kezhuo Yu; Biao Zhang; Tong Zhang; Jincun Zhao; Peidong Zhao; Jianfeng Zhou; Wei Zhou; Sujuan Zhong; Xiaosong Zhong; Shuye Zhang; Lin Zhu; Ping Zhu; Bing Zou; Jiahua Zou; Zengtao Zuo; Fan Bai; Xi Huang; Xiuwu Bian; Penghui Zhou; Qinghua Jiang; Zhiwei Huang; Jin-Xin Bei; Lai Wei; Xindong Liu; Tao Cheng; Xiangpan Li; Fu-Sheng Wang; Hongyang Wang; Bing Su; Kun Qu; Xiaoqun Wang; JieKai Chen; Ronghua Jin; Zemin Zhang.

biorxiv; 2020.

Preprint in English | bioRxiv | ID: ppzbmed-10.1101.2020.10.29.361261

ABSTRACT

ABSTRACT

The recent COVID-19 pandemic has brought about a surge of crowd-sourced initiatives aimed at simulating the proteins of the SARS-CoV-2 virus. A bottleneck currently exists in translating these simulations into tangible predictions that can be leveraged for pharmacological studies. Here we report on extensive electrostatic calculations done on an exascale simulation of the opening of the SARS-CoV-2 spike protein, performed by the Folding@home initiative. We compute the electric potential as the solution of the non-linear Poisson-Boltzmann equation using a parallel sharp numerical solver. The inherent multiple length scales present in the geometry and solution are reproduced using highly adaptive Octree grids. We analyze our results focusing on the electro-geometric properties of the receptor-binding domain and its vicinity. This work paves the way for a new class of hybrid computational and data-enabled approaches, where molecular dynamics simulations are combined with continuum modeling to produce high-fidelity computational measurements serving as a basis for protein bio-mechanism investigations.

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COVID-19

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Full text: Available Collection: Preprints Database: bioRxiv Main subject: COVID-19 Language: English Year: 2020 Document Type: Preprint