Natural Products from Red Algal Genus Laurencia as Potential Inhibitors of RdRp and nsp15 Enzymes of SARS-CoV-2: An In Silico Perspective

IF 2.1 Q3 MICROBIOLOGY
Omkar Pokharkar, Harshavardhan Anumolu, G. Zyryanov, M. Tsurkan
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引用次数: 1

Abstract

The genus Laurencia, a category of marine red algae, is well recognized for producing a large variety of natural products (NPs) that are both chemically intriguing and structurally distinct. The aim of this research was to identify NPs with potential anti-SARS-CoV-2 activity. The crystals of the proteins RdRp and nsp15 were obtained from the RCSB protein database. About 300 NPs were discovered using the PubChem, ChemSpider, and CMNPD databases. The program Autodock Vina was used to conduct the molecular docking procedure once the proteins and ligands were prepared. Before running MD simulations using the CABS-flex 2.0 website, binding affinity assessments and interactions between amino acids were carefully reviewed. Only nine NPs were shortlisted to be examined further. Bromophycolide R, S, and bromophycoic acid C show the tendency to inhibit RdRp by β-hairpin motif binding at the N-terminal known as Active site 2 (AS2), whereas the other four NPs, bromophycolide E, H, P, and thyrsenol A, may effectively inhibit RdRp through interactions via C-terminal, also known as the Active site 1 (AS1). For the enzyme nsp15, bromophycoic B, C, and floridoside showed plausible interactions. In conclusion, out of nine, seven candidates shortlisted for RdRp exhibited strong interactions with the key residues in the AS1 and AS2 regions. Bromophycoic acid C may work as a dual inhibitor due to its favorable interactions with the nsp15 protein and RdRp’s N-terminal, with affinities of −8.5 and −8.2 kcal/mol, respectively.
Laurencia红藻属天然产物作为SARS-CoV-2病毒RdRp和nsp15酶潜在抑制剂的研究
Laurencia属是一种海洋红藻,以生产各种各样的天然产物(NPs)而闻名,这些天然产物在化学上和结构上都很独特。本研究的目的是鉴定具有潜在抗sars - cov -2活性的NPs。蛋白RdRp和nsp15的晶体从RCSB蛋白数据库中获得。使用PubChem, ChemSpider和CMNPD数据库发现了大约300个np。一旦蛋白质和配体准备好,使用Autodock Vina程序进行分子对接程序。在使用CABS-flex 2.0网站运行MD模拟之前,仔细审查了氨基酸之间的结合亲和力评估和相互作用。只有9个国家方案入围,有待进一步审查。溴霉酸R、S和溴霉酸C表现出通过β-发夹基序结合在n端被称为活性位点2 (AS2)抑制RdRp的倾向,而其他四个NPs,溴霉酸E、H、P和thysenol A可能通过C端被称为活性位点1 (AS1)的相互作用有效地抑制RdRp。对于nsp15酶,溴生菌B、C和花草苷表现出似是而非的相互作用。总之,在9个候选RdRp中,7个候选RdRp与AS1和AS2区域的关键残基表现出强烈的相互作用。溴藻酸C与nsp15蛋白和RdRp的n端具有良好的相互作用,亲和度分别为- 8.5和- 8.2 kcal/mol。
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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来源期刊
Microbiology Research
Microbiology Research MICROBIOLOGY-
CiteScore
1.90
自引率
6.70%
发文量
62
审稿时长
10 weeks
期刊介绍: Microbiology Research is an international, online-only, open access peer-reviewed journal which publishes original research, review articles, editorials, perspectives, case reports and brief reports to benefit researchers, microbiologists, physicians, veterinarians. Microbiology Research publishes ‘Clinic’ and ‘Research’ papers divided into two different skill and proficiency levels: ‘Junior’ and ‘Professional’. The aim of this four quadrant grid is to encourage younger researchers, physicians and veterinarians to submit their results even if their studies encompass just a limited set of observations or rely on basic statistical approach, yet upholding the customary sound approach of every scientific article.
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