In silico Investigation of inhibitory characteristics of phytoconstituents from Moringa oleifera against SARS-CoV-2 viral proteins

Natural Resources for Human Health Pub Date : 2022-09-21 DOI:10.53365/nrfhh/153401

A. Shrivastava, D. Chaudhary, L. Shrestha, Anjan Palikhey, Chandrajeet Kumar Yadav, Deepak Basyal, B. Joshi, Mohammad Ujair Shekh

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引用次数: 1

Abstract

The global pandemic situation caused by rare viral pneumonia occurs in late December 2019 in Wuhan, China, which we now recognize as COVID-19. The molecular docking was used to identify potential phytoconstituents of Moringa oleifera and reference drug hydroxychloroquine on SARS-CoV-2 main protein by using AutoDock 4.2.6 and Auto dock Vina. All the physicochemical and bioactive parameters (ADME, toxicity study, receptor interaction, PASS analysis, drug-likeness) were determined using different online validated software. The binding energy of all SAR-CoV-2 proteins with selected phytoconstituents of Moringa oleifera were found to be beta carotene, vitamin E; myricetin, quercetin showed the highest binding affinity with all interacting proteins comparable with other drugs and reference drug hydroxychloroquine as an order: beta carotene > myricetin > quercetin > vitamin E> hydroxychloroquine>quinic acid. The MD simulation analysis of viral protein (6MOJ) with beta carotene, vitamin E and myricetin demonstrated strong stability at 300 K. All three complexes exhibit persistent RMSDs value (0.25 – 1.5 Å) of protein side-chain Cα atoms during the 3 ns MD simulation time scale. The minor changes of all three ligands with 2 different viral proteins increasing the compactness of ligands with protein in radius of gyration suggested the strong structural activity of ligands and the least fluctuation during the MD simulation (31.2, 30.0 and 31.2), respectively. In the present study revealed that all the active constituents of Moringa oleifera show good binding affinity, but beta carotene and myricetin have an excellent affinity with SARS-CoV-2 proteins respectively.

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辣木植物成分对SARS-CoV-2病毒蛋白抑制特性的实验研究

由罕见的病毒性肺炎引起的全球大流行疫情于2019年12月下旬在中国武汉发生，我们现在将其命名为COVID-19。利用AutoDock 4.2.6和Auto dock Vina进行分子对接，鉴定辣木和参比药物羟氯喹对SARS-CoV-2主蛋白的潜在植物成分。所有理化和生物活性参数(ADME、毒性研究、受体相互作用、PASS分析、药物相似性)均采用不同的在线验证软件进行测定。所有SAR-CoV-2蛋白与辣木所选植物成分的结合能均为β -胡萝卜素、维生素E;与其他药物和参比药物羟基氯喹相比，槲皮素与所有相互作用蛋白的结合亲和力最高，顺序为β -胡萝卜素>杨梅素>槲皮素>维生素E>羟基氯喹>奎宁酸。病毒蛋白(6MOJ)与β -胡萝卜素、维生素E和杨梅素的MD模拟分析表明，6MOJ在300 K下具有很强的稳定性。在3 ns MD模拟时间尺度内，这三种配合物的蛋白质侧链Cα原子的RMSDs值均为0.25 - 1.5 Å。这三种配体与2种不同的病毒蛋白的微小变化增加了配体与蛋白质在旋转半径上的紧密性，表明配体的结构活性强，在MD模拟过程中波动最小(分别为31.2,30.0和31.2)。本研究发现辣木的所有活性成分均表现出良好的结合亲和力，但β -胡萝卜素和杨梅素分别与SARS-CoV-2蛋白具有良好的结合亲和力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Natural Resources for Human Health

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