In-silico approach to characterize the structure and function of a hypothetical protein of Monkeypox virus exploring Chordopox-A20R domain-containing protein activity.

IF 1.3 4区 医学 Q4 INFECTIOUS DISEASES Antiviral Therapy Pub Date : 2024-06-01 DOI:10.1177/13596535241255199
Md Iqbal Hosen, Md Easin Mia, Md Nur Islam, Most Ummay Salma Khatun, Tanvir Hossain Emon, Md Anwar Hossain, Farzana Akter, Md Abdul Kader, Sadia Hossain Jeba, Asm Faisal, Md Abunasar Miah
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Abstract

Background: Monkeypox has emerged as a noteworthy worldwide issue due to its daily escalating case count. This illness presents diverse symptoms, including skin manifestations, which have the potential to spread through contact. The transmission of this infectious agent is intricate and readily transfers between individuals.Methods: The hypothetical protein MPXV-SI-2022V502225_00135 strain of monkeypox underwent structural and functional analysis using NCBI-CD Search, Pfam, and InterProScan. Quality assessment utilized PROCHECK, QMEAN, Verify3D, and ERRAT, followed by protein-ligand docking, visualization, and a 100-nanosecond simulation on Schrodinger Maestro.Results: Different physicochemical properties were estimated, indicating a stable molecular weight (49147.14) and theoretical pI (5.62) with functional annotation tools predicting the target protein to contain the domain of Chordopox_A20R domain. In secondary structure analysis, the helix coil was found to be predominant. The three-dimensional (3D) structure of the protein was obtained using a template protein (PDB ID: 6zyc.1), which became more stable after YASARA energy minimization and was validated by quality assessment tools like PROCHECK, QMEAN, Verify3D, and ERRAT. Protein-ligand docking was conducted using PyRx 9.0 software to examine the binding and interactions between a ligand and a hypothetical protein, focusing on various amino acids. The model structure, active site, and binding site were visualized using the CASTp server, FTsite, and PyMOL. A 100 nanosecond simulation was performed with ligand CID_16124688 to evaluate the efficiency of this protein.Conclusion: The analysis revealed significant binding interactions and enhanced stability, aiding in drug or vaccine design for effective antiviral treatment and patient management.

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通过实验室方法确定猴痘病毒假定蛋白的结构和功能,探索含 Chordopox-A20R 结构域蛋白的活性。
背景:猴痘的病例数与日俱增,已成为一个值得注意的世界性问题。这种疾病表现出多种症状,包括皮肤表现,有可能通过接触传播。这种传染病的传播方式错综复杂,很容易在人与人之间传播:方法:使用 NCBI-CD Search、Pfam 和 InterProScan 对猴痘的假定蛋白 MPXV-SI-2022V502225_00135 株进行了结构和功能分析。利用 PROCHECK、QMEAN、Verify3D 和 ERRAT 进行质量评估,然后在 Schrodinger Maestro 上进行蛋白质配体对接、可视化和 100 纳秒模拟:对不同的理化性质进行了估计,结果表明目标蛋白质的分子量(49147.14)和理论pI(5.62)比较稳定,功能注释工具预测目标蛋白质含有Chordopox_A20R结构域。二级结构分析发现,螺旋线圈占主导地位。利用模板蛋白(PDB ID:6zyc.1)获得了该蛋白质的三维(3D)结构,经过 YASARA 能量最小化后,该结构变得更加稳定,并通过 PROCHECK、QMEAN、Verify3D 和 ERRAT 等质量评估工具进行了验证。使用 PyRx 9.0 软件进行了蛋白质-配体对接,研究了配体与假定蛋白质之间的结合和相互作用,重点研究了各种氨基酸。使用 CASTp 服务器、FTsite 和 PyMOL 对模型结构、活性位点和结合位点进行了可视化。对配体 CID_16124688 进行了 100 纳秒模拟,以评估该蛋白质的效率:分析结果表明,该蛋白具有明显的结合相互作用和更高的稳定性,有助于设计药物或疫苗,从而实现有效的抗病毒治疗和患者管理。
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来源期刊
Antiviral Therapy
Antiviral Therapy 医学-病毒学
CiteScore
2.60
自引率
8.30%
发文量
35
审稿时长
4-8 weeks
期刊介绍: Antiviral Therapy (an official publication of the International Society of Antiviral Research) is an international, peer-reviewed journal devoted to publishing articles on the clinical development and use of antiviral agents and vaccines, and the treatment of all viral diseases. Antiviral Therapy is one of the leading journals in virology and infectious diseases. The journal is comprehensive, and publishes articles concerning all clinical aspects of antiviral therapy. It features editorials, original research papers, specially commissioned review articles, letters and book reviews. The journal is aimed at physicians and specialists interested in clinical and basic research.
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