Biothermodynamic analysis of the Dengue virus: Empirical formulas, biosynthesis reactions and thermodynamic properties of antigen-receptor binding and biosynthesis

After the experience with the COVID-19 pandemic, WHO has issued a warning about the possible causes of future pandemics. One such causative agent is the Dengue virus. Until now, we have had information mostly on biological properties of the Dengue virus and very little information about its chemical...

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Bibliographic Details
Published in:Microbial risk analysis 2024-12, Vol.27-28, p.100326, Article 100326
Main Authors: Popović, Marko E., Stevanović, Maja, Tadić, Vojin
Format: Article
Language:English
Subjects:
biosynthesis
COVID-19 infection
dengue
Dengue virus
Driving force
etiological agents
Gibbs energy
microbiological risk assessment
pandemic
Pathogenicity
thermodynamics
Virus multiplication
Virus-host interaction
West Nile virus
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Summary:After the experience with the COVID-19 pandemic, WHO has issued a warning about the possible causes of future pandemics. One such causative agent is the Dengue virus. Until now, we have had information mostly on biological properties of the Dengue virus and very little information about its chemical and thermodynamic properties. To be better prepared for a potential Dengue pandemic, the goal of this paper is to chemically and thermodynamically characterize the Dengue virus, as well as to describe the biophysical basis of the virus-host interactions of the Dengue virus. To that goal, the empirical formula was determined, as well as biosynthesis reactions and thermodynamic properties of antigen-receptor binding and thermodynamic properties of biosynthesis and multiplication of the Dengue virus. A model was developed of virus-host interactions between the Dengue virus and its host tissues, based on nonequilibrium thermodynamics. [Display omitted]
ISSN:2352-3522
DOI:10.1016/j.mran.2024.100326