利用 X 射线晶体结构区分喹唑啉酮类似物假想结合模式的室内研究 人碳酐酶 II (HCAII) 与氨基磺酸糖的酶复合物的抗惊厥活性

R. D. Amrutkar, M. S. Ranawat
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引用次数: 0

摘要

喹唑啉酮分子是一种重要的药代体,最近的详尽研究表明,它具有多种药理活性。喹唑啉酮具有抗焦虑、镇痛、抗炎和抗惊厥等强效中枢神经系统(CNS)活性。由于蛋白质与配体之间的相互作用在基于结构的药物设计中起着重要作用,因此我们尝试使用 Vlife MDS 4.6 版软件,通过对照人碳酸酐酶 II(HCA II)酶的 X 射线晶体结构识别合适的活性位点,报告药物/配体或受体/蛋白质之间的相互作用,以获得抗惊厥活性。喹唑啉酮衍生物与氨基磺酸糖之间的相互作用是根据得分比较进行评估的。喹唑啉酮环与氨基酸残基形成疏水和氢键接触。结果表明,配体 4t 和 4s 具有最低的对接得分,即最低的结合能(Kcal/mole),也就是说,这些分子对受体的活性位点具有更强的亲和力。对接得分和结合能低的分子对受体的亲和力更大。本文报告的数据可能会对从事该领域研究的药物化学家有所帮助。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In-silico Studies of Quinazolinone Analogues to Distinguish their Hypothetical Binding Mode using the X-ray crystal Structure Human carbon Anhydrase II (HCAII) Enzyme Complex with Sugar Sulfamate for Anticonvulsant Activity
The quinazolinone moiety is a significant pharmacophore that depicts various types of pharmacological activities as shown in recent exhaustive ligatures. Quinazolinone exhibit potent central nervous system (CNS) activities like anti-anxiety, analgesic, anti-inflammatory and anticonvulsant. To develop these views and application profiles, attempt have been made to report a drug/ligand or receptor/protein interactions by identifying the suitable active site against X-ray crystal structure of Human Carbonic Anhydrase II (HCA II) enzyme for anticonvulsant activity using Vlife MDS version 4.6 Software because the protein-ligand interaction plays a significant role in structural based drug designing. The interaction was evaluated based on the score comparison between quinazolinone derivatives with sugar sulfamate. The quinazolinone ring forms hydrophobic and hydrogen bond contacts amino acid residues. The ligands 4t and 4s were shown to possess minimum dock score i.e. minimum binding energy in Kcal/mole i.e. these molecules has more affinity for the active site of the receptor. Molecules with low dock score and binding energy show more affinity towards the receptor. The data reported in this article may be helpful for the medicinal chemists who are working in this area.
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