Interactions of Ozone-Functionalized Activated Charcoal with SARS-Cov-2 Proteases Using Molecular Docking and Dynamics.

Costa Araújo, Hérica Daniele; Silva Arouche, Tiago da; de Carvalho Junior, Raul Nunes; Castro Ramalho, Teodorico; Santos Borges, Rosivaldo Dos; de Oliveira, Mozaniel Santana; Chagas Marques, Francisco das; de Jesus Chaves Neto, Antonio Maia

Costa Araújo, Hérica Daniele; Silva Arouche, Tiago da; de Carvalho Junior, Raul Nunes; Castro Ramalho, Teodorico; Santos Borges, Rosivaldo Dos; de Oliveira, Mozaniel Santana; Chagas Marques, Francisco das; de Jesus Chaves Neto, Antonio Maia.

Costa Araújo HD; Laboratory of Preparation and Computation of Nanomaterials (LPCN), Federal University of Pará, C. P. 479, 66075-110, Belem, PA, Brazil.
Silva Arouche TD; Laboratory of Preparation and Computation of Nanomaterials (LPCN), Federal University of Pará, C. P. 479, 66075-110, Belem, PA, Brazil.
de Carvalho Junior RN; Post-Graduate Program in Engineering of Natural Resources of the Amazon, ITEC, Federal University of Pará, C. P. 2626, 66.050-540, Belem, PA, Brazil.
Castro Ramalho T; Federal University of Lavras, UFLA. Center 37200973 - BOX: 3037 - Lavras, MG, Brazil.
Santos Borges RD; Federal University of Pará, Department of Pharmacy. Street Augusto Correa, SN Pharmaceutical Chemistry Laboratory, Guamá 66075-110 - Belém, PA, Brazil.
de Oliveira MS; Museum Paraense Emílio Goeldi, Directorate, Coordination of Botany. Street Augusto Corrêa - 937-Guamá, 66075110 - Belém, PA, Brazil.
Chagas Marques FD; State University of Campinas, Institute of Physics Gleb Wataghin. University 13083859 - Campinas, POBOX 6165, SP, Brazil.
de Jesus Chaves Neto AM; Laboratory of Preparation and Computation of Nanomaterials (LPCN), Federal University of Pará, C. P. 479, 66075-110, Belem, PA, Brazil.

J Nanosci Nanotechnol ; 21(12): 6060-6072, 2021 12 01.

Article in English | MEDLINE | ID: covidwho-1299264

ABSTRACT

ABSTRACT

The high contamination by the SARS-Cov-2 virus has led to the search for ways to minimize contagion. Masks are used as part of a strategy of measures to suppress transmission and save lives. However, they are not sufficient to provide an adequate level of protection against COVID-19. Activated charcoal has an efficient antibacterial action, adsorption and low cost. Here, the interaction between two molecules of activated carbon was analyzed, interacting with two structures of the SARS-Cov-2, through docking and molecular dynamics using the platforms Autodock Vina 4.2.6, Gaussian 09 and Amber 16. As a result, the complexes from ozone-functionalized coal to viral structures happen mainly through hydrophobic interactions at the binding site of each receptor. The values of the mean square deviations of the two systems formed by ligands/receptors and showed better stability. The results of Gibbs free energy showed a better interaction between proteins and functionalized charcoal, with â³Gtotal values of -48.530 and -38.882 kcal/mol. Thus, the set formed by combinations of proteins with functionalized activated carbon tends to more efficiently adsorb the protein components of the coronavirus to the pores of the activated carbon with ozone during filtration.

Subject(s)

COVID-19; Ozone; Charcoal; Humans; Molecular Docking Simulation; Peptide Hydrolases; SARS-CoV-2

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Full text: Available Collection: International databases Database: MEDLINE Main subject: Ozone / COVID-19 Limits: Humans Language: English Journal: J Nanosci Nanotechnol Year: 2021 Document Type: Article Affiliation country: Jnn.2021.19525

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