Exploring the Regulatory Function of the N-terminal Domain of SARS-CoV-2 Spike Protein through Molecular Dynamics Simulation

Yao Li; Tong Wang; Juanrong Zhang; Bin Shao; Haipeng Gong; Yusong Wang; Xinheng He; Siyuan Liu; Tie-Yan Liu

Exploring the Regulatory Function of the N-terminal Domain of SARS-CoV-2 Spike Protein through Molecular Dynamics Simulation

Yao Li ,
Tong Wang ,
Juanrong Zhang ,
Bin Shao ,
Haipeng Gong ,
Yusong Wang ,
Xinheng He ,
Siyuan Liu ,
Tie-Yan Liu

Advanced Theory and Simulations | September 2021

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SARS-CoV-2 is what has caused the COVID-19 pandemic. Early viral infection is mediated by the SARS-CoV-2 homo-trimeric Spike (S) protein with its receptor binding domains (RBDs) in the receptor-accessible state. Molecular dynamics simulation on the S protein with a focus on the function of its N-terminal domains (NTDs) is performed. The study reveals that the NTD acts as a “wedge” and plays a crucial regulatory role in the conformational changes of the S protein. The complete RBD structural transition is allowed only when the neighboring NTD that typically prohibits the RBD’s movements as a wedge detaches and swings away. Based on this NTD “wedge” model, it is proposed that the NTD–RBD interface should be a potential drug target.