Racemization Hypothesis of COVID-19. Tip of the Iceberg

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Abstract

The impact of viral infections on the central nervous system is widely known. Virus-related neuropsychiatric and neurobehavioral syndromes are caused by the distortion of cognitive, affective, behavioral, and perceptual domains. Although it is a commonly known phenomenon, the mechanism behind it is not well-understood. The contagious and deadly features of coronavirus disease 2019 (COVID-19) have been associated with the virus-host cell interaction at the molecular level. However, there is no reliable biomarker characterizing the disease progression. Studies of the structure, function, and evolution of coronavirus transmembrane spike glycoproteins (S-, N-, and E-proteins) suggest an essential role of protein chirality in virus-cell membrane interaction. The virus-host interaction is the subject of multidisciplinary research from the biochirality and systems biology, to cell physiology and non-equilibrium thermodynamics of phase transitions in proteins. At the protein level, virus-host interaction is modulated by the amino acid sequence of viral proteins and cellular metabolism. Enzymatic and spontaneous post-translational modifications (PTMs) are two mutually influential mechanisms governing the dynamics of virus and host cell proteome. Among them, phosphorylation and racemization are the most inter-related and studied. The spontaneous phase transitions within viral glycoprotein impacts the cell-entry capability of the virus. The spontaneous racemization is a particular and highly specific metabolic event in virus-cell interaction that is the focus of our attention. Many viral proteins are characterized by a high proportion of the serine (Ser) residues, which are the common target of the host-cell glycosylation, phosphorylation, and racemization, and proteolytic enzymes. Particularly, coronavirus N proteins were found to be phosphorylated at multiple Ser residues, a portion of which are shown to be phosphorylation-prone by the Ser-associated kinases. Since Ser is known as one of the most racemization prone amino acids, we promote an idea of the specific impact of spontaneous racemization at Ser residues on virus-host interaction.

Publisher

Uniscience Publishers LLC

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