Abstract
Electrostatics is an important part of virus life. Understanding the detailed distribution of charges over the surface of a virus is important to predict its interactions with host cells, antibodies, drugs, and different materials. Using a coarse-grained model of the entire viral envelope developed by D. Korkin and S.-J. Marrink’s scientific groups, we created an electrostatic map of the external surface of SARS-CoV-2 and found a highly heterogeneous distribution of the electrostatic potential field of the viral envelope. Numerous negative patches originate mainly from negatively charged lipid domains in the viral membrane and negatively charged areas on the “stalks” of the spike (S) proteins. Membrane (M) and envelope (E) proteins with the total positive charge tend to colocalize with the negatively charged lipids. In the E protein pentamer exposed to the outer surface, negatively charged glutamate residues and surrounding lipids form a negative electrostatic potential ring around the channel entrance. We simulated the interaction of the antiviral octacationic photosensitizer octakis(cholinyl)zinc phthalocyanine with the surface structures of the entire model virion using the Brownian dynamics computational method implemented in ProKSim software (version r661). All mentioned negatively charged envelope components attracted the photosensitizer molecules and are thus potential targets for reactive oxygen generated in photosensitized reactions.
Keywords: Brownian dynamics; SARS-CoV-2; coarse-grain model; electrostatic interactions; photosensitizer.
【저자키워드】 SARS-CoV-2, Brownian dynamics, coarse-grain model, electrostatic interactions, photosensitizer, 【초록키워드】 Structure, antibodies, Zinc, Antiviral, drugs, oxygen, Proteins, virus, E protein, Protein, understanding, target, lipids, distribution, predict, Glutamate, electrostatic interactions, Interaction, Lipid, host cells, Reactions, viral membrane, domain, phthalocyanine, computational method, heterogeneous, component, virion, positive, different materials, viral envelope, photosensitizer, Electrostatics, Positive Charge, reactive oxygen, groups, electrostatic, Numerous, glutamate residue, 【제목키워드】 Site, Map, the SARS-CoV-2,