DRUG REPURPOSING: IDENTIFICATION OF POTENTIAL DRUG TARGETS AGAINST NONSTRUCTURAL PROTEIN 1 (NSP-1) OF SARS-COV-2 THROUGH MOLECULAR DOCKING AND MOLECULAR DYNAMIC SIMULATION USING FDA APPROVED DRUGS

THE JOURNAL OF MICROBIOLOGY AND MOLECULAR GENETICS Pub Date : 2022-12-31 DOI:10.52700/jmmg.v3i3.93

R. Mateen, M. Saqib, M. Hussain, M. I. Fareed, Muhammad Sohail Afzaal, Rukhsana Parveen

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Abstract

Since its pandemic in 2019, SARS-CoV-2 has badly affected the countries around the globe. There is no FDA approved drug for the treatment of the disease. In this study, we evaluated potential targets against non-structural protein-1 (Nsp-1), which is crucial in disturbing host-translational machinery. As the completecrystal structure of the Nsp-1 was not available, we used I-TASSER for making the complete structure of the protein. The structure was verified using ERRATand PROVEAN. As the previous studies had reported different binding sites for this protein, we used blind docking of Nsp-1 with 2225 FDA approved drugsusing AutoDock Vina. Based upon the residue interactions obtained from the blind docking, we selected C-terminal of Nsp-1 for specific docking against FDAapproved drugs. Based upon the docking results, Glycyrrhizin was found to be suitable drug showing strong interactions. We further verified the glycyrrhizin-Nsp-1 complex by analyzing the trajectory for 60 ns, by comparing with individual protein. RMSD analysis during the trajectory and RMSF analysis alsosuggested the stability of the protein-ligand complex and resulted in 49 hydrogen bonds during the simulation process. The study suggests that Glycyrrhizin can act as potential inhibitors against Nsp-1 of SARS-COV-2.

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药物再利用:利用fda批准的药物，通过分子对接和分子动力学模拟，鉴定针对sars-cov-2非结构蛋白1 (nsp-1)的潜在药物靶点

自2019年大流行以来，SARS-CoV-2严重影响了全球各国。目前还没有FDA批准的治疗这种疾病的药物。在这项研究中，我们评估了针对非结构蛋白-1 (Nsp-1)的潜在靶点，Nsp-1在干扰宿主翻译机制中至关重要。由于无法获得Nsp-1的完整晶体结构，我们使用I-TASSER来制作蛋白质的完整结构。使用errat和PROVEAN对结构进行了验证。由于之前的研究报道了该蛋白的不同结合位点，我们使用AutoDock Vina将Nsp-1与2225种FDA批准的药物进行盲对接。根据盲对接获得的残基相互作用，我们选择了Nsp-1的c端与fda批准的药物进行特异性对接。根据对接结果，甘草酸是合适的药物，相互作用强。通过与单个蛋白的对比，分析了60 ns的轨迹，进一步验证了甘草酸- nsp -1复合物。轨迹的RMSD分析和RMSF分析也表明了蛋白质-配体复合物的稳定性，在模拟过程中产生了49个氢键。本研究提示甘草酸可作为抑制SARS-COV-2 Nsp-1的潜在抑制剂。

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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THE JOURNAL OF MICROBIOLOGY AND MOLECULAR GENETICS

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