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Specific Recognition of the 5′-Untranslated Region of West Nile Virus Genome by Human Innate Immune System

by Bignon, Emmanuelle , Monari, Antonio , Miclot, Tom , Barone, Giampaolo , Marazzi, Marco

in 5' Untranslated regions / 5′-untranslated region / Antiviral agents / Antiviral drugs / Biochemistry, Molecular Biology / Climate change / COVID-19 / COVID-19 infection / emerging viruses / Encephalitis / Europe / Fever / Genomes / humans / Immune response / Immune system / Immunology / Infections / Innate immunity / Life Sciences / Microbiology and Parasitology / molecular dynamics / Molecular modelling / Mosquitoes / Mutation / oligoadenylate synthetase 1 / Outbreaks / Pathogens / Proteins / recognition mechanism / RNA / RNA viruses / Severe acute respiratory syndrome coronavirus 2 / Simulation / Structural Biology / therapeutics / viral genome / Virology / Viruses / West Nile Virus

2022

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Specific Recognition of the 5′-Untranslated Region of West Nile Virus Genome by Human Innate Immune System

by Bignon, Emmanuelle , Monari, Antonio , Miclot, Tom , Barone, Giampaolo , Marazzi, Marco

2022

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Specific Recognition of the 5′-Untranslated Region of West Nile Virus Genome by Human Innate Immune System

by Bignon, Emmanuelle , Monari, Antonio , Miclot, Tom , Barone, Giampaolo , Marazzi, Marco

2022

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Journal Article

Specific Recognition of the 5′-Untranslated Region of West Nile Virus Genome by Human Innate Immune System

Bignon, Emmanuelle,

Monari, Antonio,

Miclot, Tom,

Barone, Giampaolo,

Marazzi, Marco

2022

Overview

In the last few years, the sudden outbreak of COVID-19 caused by SARS-CoV-2 proved the crucial importance of understanding how emerging viruses work and proliferate, in order to avoid the repetition of such a dramatic sanitary situation with unprecedented social and economic costs. West Nile Virus is a mosquito-borne pathogen that can spread to humans and induce severe neurological problems. This RNA virus caused recent remarkable outbreaks, notably in Europe, highlighting the need to investigate the molecular mechanisms of its infection process in order to design and propose efficient antivirals. Here, we resort to all-atom Molecular Dynamics simulations to characterize the structure of the 5′-untranslated region of the West Nile Virus genome and its specific recognition by the human innate immune system via oligoadenylate synthetase. Our simulations allowed us to map the interaction network between the viral RNA and the host protein, which drives its specific recognition and triggers the host immune response. These results may provide fundamental knowledge that can assist further antivirals’ design, including therapeutic RNA strategies.

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Publisher

MDPI AG,MDPI

Subject

5' Untranslated regions

/ 5′-untranslated region

/ Antiviral agents

/ Antiviral drugs

/ Biochemistry, Molecular Biology

/ Climate change

/ COVID-19