作为α-淀粉酶抑制剂的蓝花草属植物化合物的分子建模：人和大鼠酶模型的计算机模拟比较

Molecular modeling of Ruellia tuberosa L compounds as a-amylase inhibitor: an in silico comparation between human and rat enzyme model.

作者信息

Wulan Dyah Ratna, Utomo Edi Priyo, Mahdi Chanif

机构信息

Master Program of Chemistry, Faculty of Science, Brawijaya University ; Academy of Food and Pharmacy Analyst, Putra Indonesia Malang.

Chemistry Department, Faculty of Science, Brawijaya University, Malang, Indonesia.

出版信息

Bioinformation. 2014 Apr 23;10(4):209-15. doi: 10.6026/97320630010209. eCollection 2014.

DOI:10.6026/97320630010209

PMID:24966522

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4070051/

Abstract

Inhibition of α-amylase is an important strategy to control post-prandial hyperglycemia. The present study on Ruellia tuberosa, known as traditional anti-diabetic agent, is being provided in silico study to identify compounds inhibiting α-amylase in rat and human. Compounds were explored from PubChem database. Molecular docking was studied using the autodock4. The interactions were further visualized and analyzed using the Accelrys Discovery Studio version 3.5. Binding energy of compounds to α-amylase was varying between -1.92 to -6.66 kcal/mol in rat pancreatic alpha amylase and -3.06 to -8.42kcal/mol in human pancreatic alpha amylase, and inhibition konstanta (ki) was varying between 13.12- 39460µM in rat and 0.67-5600µM in human. The docking results verify that betulin is the most potential inhibitor of all towards rat model alpha amylase and human alpha amylase. Further analysis reveals that betulin could be a potential inhibitor with non-competitive pattern like betulinic acid. In comparison, betulin has smaller Ki (0.67µM) than acarbose (2.6 µM), which suggesting that betulin is more potential as inhibitor than acarbose, but this assumption must be verified in vitro.

摘要

抑制α-淀粉酶是控制餐后高血糖的重要策略。本研究针对被称为传统抗糖尿病药物的蓝花草进行了计算机模拟研究，以鉴定在大鼠和人类中抑制α-淀粉酶的化合物。从PubChem数据库中探索化合物。使用autodock4进行分子对接研究。使用Accelrys Discovery Studio 3.5版本进一步可视化和分析相互作用。化合物与大鼠胰腺α-淀粉酶的α-淀粉酶结合能在-1.92至-6.66千卡/摩尔之间变化，与人类胰腺α-淀粉酶的结合能在-3.06至-8.42千卡/摩尔之间变化，抑制常数（ki）在大鼠中为13.12 - 39460µM，在人类中为0.67 - 5600µM。对接结果证实，桦木醇是所有化合物中对大鼠模型α-淀粉酶和人类α-淀粉酶最具潜力的抑制剂。进一步分析表明，桦木醇可能是一种具有非竞争性模式的潜在抑制剂，类似于桦木酸。相比之下，桦木醇的Ki（0.67µM）比阿卡波糖（2.6µM）小，这表明桦木醇作为抑制剂比阿卡波糖更具潜力，但这一假设必须在体外得到验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42be/4070051/db0246850757/97320630010209F1.jpg

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作为α-淀粉酶抑制剂的蓝花草属植物化合物的分子建模：人和大鼠酶模型的计算机模拟比较

Molecular modeling of Ruellia tuberosa L compounds as a-amylase inhibitor: an in silico comparation between human and rat enzyme model.

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