Abstract

Nowadays, the main effort of the scientific community is focused on the search of specific drugs for the inhibition of the Severe Acute Respiratory Syndrome—Coronavirus 2 (SARS-CoV-2), which is responsible for the Coro-navirus Disease 19 or COVID-19. With the same objective in mind, a Molecular Docking study was performed in this work in order to discover information about some antiviral drugs of common use as protease inhibitors. As a complement of this research, a chemical reactivity study of these potential drugs was done with the aim of finding a relationship between the inhibition ability and the chemical reactivity. The results presented in this research constitute one of the first predictions aimed to identify the best potential compounds for this purpose while at the same time verifying the validity of the employed theoretical and computational methodology. By means of the analysis of the number of hydrogen bonds as well as the binding energies coming from the Molecular Docking study, it can be said that Telaprevir, Nelfinavir and Indinavir have the highest probability of success as potential inhibitors of SARS-CoV-2.

Highlights

  • During the rapid development of the COVID-19 disease, researchers over the whole world are hard-working in order to develop a successful therapy

  • The main effort of the scientific community is focused on the search of specific drugs for the inhibition of the Severe Acute Respiratory Syndrome—Coronavirus 2 (SARS-CoV-2), which is responsible for the Coronavirus Disease 19 or COVID-19

  • By means of the analysis of the number of hydrogen bonds as well as the binding energies coming from the Molecular Docking study, it can be said that Telaprevir, Nelfinavir and Indinavir have the highest probability of success as potential inhibitors of SARS-CoV-2

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Summary

Introduction

During the rapid development of the COVID-19 disease, researchers over the whole world are hard-working in order to develop a successful therapy. The main protease proteins of SARS-CoV-2 have been identified as the drug targets required to process the translation of the proteins from the RNA virus. Inhibition of Mpro would prevent the virus from replication and constitutes one of the potential anticoronaviral strategies [1] [2] [3] [4]. For these reasons, the main objective of some of recent investigations has been finding adequate drugs with inhibitory activity properties of this particular protease protein [3]-[9]

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