Abstract
Objective: The new coronavirus type SARS-Cov 2 (severe acute respiratory syndrome), which appeared in autumn 2019 in China, became a global pandemic in a few months. In this work, we looked for the potential anti SARS-Cov 2 of the compounds isolated from three Djiboutian medicinal plants, namely Acacia seyal, Cymbopogon commutatus, and Indigofera caerulea.
 Methods: We carried out a molecular docking with nine biomolecules, β-Sitosterol, Quercetin, Catechin, Lupeol, Rutin, Kaempferol, Gallic acid, Piperitone and Limonene on three target sites which are SARS-CoV-2 main protease (Mp), SARS-CoV-2 receptor-binding domain (RBD) and human furin protease. These targets are chosen because of their role in the process of penetration of the virus into human cells and its multiplication. Moreover, the predictions of pharmacokinetic parameters as well as toxicological properties have been determined using an online bioinformatics tool named SwissADME and AdmetSAR respectively.
 Results: The phenolic compounds have a very good affinity on these three target sites with binding energies of up to-9.098 kcal/mol for rutin on SARS-CoV-2 Mp, much better than the two reference drugs hydroxychloroquine (-5.816 kcal/mol) and remdesivir (-7.194 kcal/mol). Except for β-Sitosterol, the tested biomolecules have weak toxicity.
 Conclusion: These natural compounds can be used against covid 19 pending In vitro and In vivo evaluations.
Highlights
Coronaviruses are viral particles, and their outer envelope, which has spicules, made up of the surface protein S, gives the characteristic crown appearance visible by electron microscopy [1]
They were isolated from three Djiboutian medicinal plants: Acacia seyal, Cymbopogon commutatus, and Indigofera caerulea (Picture 1)
The lower energy corresponds the better affinity between the two entities
Summary
Coronaviruses are viral particles, and their outer envelope, which has spicules, made up of the surface protein S, gives the characteristic crown appearance visible by electron microscopy [1]. These viruses affect both humans and animals, and in some cases cause serious infections of the respiratory systems. Everywhere the search for effective therapeutic molecules is intensifying and, due to the urgency of the situation, evaluations by computer simulation can save time. The interaction between these molecules and specific targets of the coronavirus is measured
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