Abstract
Background: A newly emergent betacoronavirus, SARS-CoV-2, poses a tremendous global threat and causes severe acute respiratory syndrome coronavirus-2, a major pandemic that began worldwide in 2019. The trimeric spike glycoprotein (S) is located on the envelope of the virus and facilitates the fusion of viral and host cell membranes by interacting with a cellular receptor called angiotensin-converting enzyme 2 (ACE2). In the United Kingdom (UK), a variant of SARS-CoV-2 has been detected using sequencing technology. There has been a significant surge in the number of COVID-19 cases in South East England. These lineages are significantly more transmissible than previously circulating variants. Objectives: The aim of this study is to investigate the effects of UK SARS-CoV-2 spike mutations on its interactions with ACE2. Methods: In this study, the structure of the UK spike protein with multiple mutations, including deletion 69 - 70, deletion 144, N501Y, A570D, T716I, D614G, P681H, S982A, and D1118H, was investigated. The research focuses on studying the impact of these mutations on spike function and its interactions with ACE2 through molecular dynamic simulation. Results: The results indicated that hydrophobic interactions, hydrogen bonds, and double/triple bonds are more prevalent in the mutated spike-ACE2 complex. Additionally, the UK spike-ACE2 complex maintained a consistent conformation throughout the simulation, experiencing minimal changes in structure. The mutant spike protein structure is less stable compared to the wild-type spike structure. Conclusions: Multiple mutations, including deletion 69 - 70, deletion 144, N501Y, A570D, T716I, D614G, P681H, S982A, and D1118H in the spike protein of UK SARS-CoV-2, can affect its interaction with the ACE2 receptor and the transmissibility of this variant of SARS-CoV-2.
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