蛇毒丝氨酸蛋白酶——肉凝血酶的结构观察和纤维蛋白原肽分子识别

Reetesh Kumar, Savitri Tiwari, F. R. Moraes
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引用次数: 0

摘要

肉凝血酶是一种蛇毒丝氨酸蛋白酶,在纤维蛋白原存在的情况下聚集血小板。在此背景下,以蛋白C激活因子(PDB ID 2AIP)为模板,利用modeler9v5软件设计了bo凝血酶的三维模型进行分子建模研究。通过PROCHECK、PROSA、ERRAT、WHAT-IF和verity3d等方法对能量最小化肉凝血酶模型进行验证。在确认了骨架构象的几何质量、残馀相互作用、能量分布等所有建议证据后,利用ClusPro服务器进一步计算基于对接的相互作用研究。该方案的设计是为了评估血凝酶模型对其模板的依赖性以及它与凝血酶的比较。选择PDB ID: 1DM4和1YCP的纤维蛋白肽晶体结构进行对接研究。这些纤维蛋白肽也与凝血酶和蛋白C激活剂对接。然后通过亚基之间的相互作用能及其相应的结合能估计进一步分析所有对接的配合物。本研究深入了解了丝氨酸蛋白酶之间的结构-功能关系及其在生物医学应用中的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structure Insights and Fibrinogen Peptides Molecular Recognition by Bothrombin, A Snake Venom Serine Protease from Bothropus jararaca
Bothrombin is a snake venom serine protease from Bothropus jararaca, which aggregates platelets in the presence of fibrinogen. In this context, the 3D model of Bothrombin was design for molecular modeling studies by modeller9v5 using as template the protein C Activator (PDB ID 2AIP). Energy minimized Bothrombin model was validated by methods such as PROCHECK, PROSA, ERRAT, WHAT-IF and VERITY 3D. After confirming all suggested evidences, such as geometric quality of the backbone conformation, residue interaction, energy profile etc., the interaction study based on docking was further calculated with ClusPro server. This protocol was designed in order to assess the dependence of bothrombin model from its template and how it compares to thrombin. Crystal structure of fibrinopeptides of PDB ID: 1DM4 and 1YCP were selected for docking studies. These fibrinopeptide also docked with thrombin and protein C Activator. All docked complexes were then further analysed by means of interaction energy between subunits and their corresponding binding energy estimates. The present study gain insight into protein structure-function relationships among serine proteinases, and its importance in biomedical applications.
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