A Computational Investigation on Rho-related GTP-binding Protein RhoB through Molecular Modeling and Molecular Dynamics Simulation Study

Journal of cellular signaling Pub Date : 2023-04-24 DOI:10.33696/signaling.4.089

Shamrat Kumar Paul, Chowdhury Lutfun Nahar Metu, Sunita Kumari Sutihar, Md. Saddam, Bristi Paul, Md. Lutful Kabir, Md. Mostofa Uddin Helal

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Abstract

Background: An indispensable member of the Rho family, RhoB is an isoprenylated small GTPases that modulate the cellular cytoskeletal organization. While DNA gets damaged, it takes part in the neoplastic apoptotic mechanism. In this study, we evaluated the structure of Rho-related GTP-binding protein RhoB due to the unavailability of 3D structure in the protein data bank database. Results: The expected pI value of RhoB was 5.10 (acidic). The target–template alignment was computed using the GMQE value meanwhile 6hxu.1.A from Homo sapiens was selected as the template structure. The Swiss model was exploited to complete the model construction task. The structural compatibility and stability were revealed after a 100ns molecular dynamics simulation using GROMACA employing the OPLS-AA force field. Based on their fluctuating activity and their location between 100 and 110 and 140 and 150, PCA analysis discovered relevant residues. Conclusion: By providing an insight into the biophysical phenomenon of Rho-related GTP-binding protein RhoB inhibitors, this study will assist future investigations addressing the relationship between gene mutation and abnormalities produced by protein Rho-related GTP-binding protein RhoB in apoptotic events.

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rho相关gtp结合蛋白RhoB的分子建模和分子动力学模拟研究

背景:RhoB是Rho家族不可或缺的成员，是一种调节细胞骨架组织的异戊二烯化小gtpase。当DNA受到损伤时，它参与了肿瘤细胞凋亡的机制。在本研究中，由于蛋白质数据库中没有三维结构，我们评估了RhoB相关gtp结合蛋白RhoB的结构。结果:RhoB的预期pI值为5.10(酸性)。同时使用GMQE值计算目标模板对齐。选择智人的A作为模板结构。利用瑞士模型完成模型构建任务。利用GROMACA在OPLS-AA力场下进行了100ns分子动力学模拟，揭示了结构的相容性和稳定性。根据它们的活性波动以及它们在100 - 110和140 - 150之间的位置，PCA分析发现了相关残基。结论:通过深入了解rho相关gtp结合蛋白RhoB抑制剂的生物物理现象，本研究将有助于进一步研究基因突变与rho相关gtp结合蛋白RhoB在凋亡事件中产生的异常之间的关系。

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Journal of cellular signaling

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