In Silico Study on Testing Antidiabetic Compounds Candidate from Azaphilone Monascus sp.

A. Yuliana, P HilmanFitriajiS, Khofi Siti Mukhaufillah, Lina Rahmawati Rizkuloh
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引用次数: 1

Abstract

Monascus sp. can be used as an ingredient in rice fermentation to produce red rice, called Angkak. In Asia, Angkak is used as traditional medicine and food containing bioactive compounds, one of which is monakolin that has the potential to be a nutraceutical. Monascus sp. produces five main pigments: red (monascorubramin, rubropunktamin), orange (monascorubrin, rubropunktatin), and yellow (monaskin, ankaflavin) which have biological activity. In subsequent developments, many new pigments were found which derivatives of the main pigments Monascus sp. are, but information regarding their biological effects is still very limited. The purpose of this study was to determine the pigment derivative compounds of Monascus sp. as a candidate compound for antidiabetic drugs. This study used 57 pigment derivative compounds Monascus sp. which is done In silico. 2GPA protein (Glycogen Phosphorylase) is used as an antidiabetic receptor. The software used in this research includes ChemDraw, Marvin Sketch, Molegro Molecular Viewer, Biovia Discovery Studio, and Autodock. The ADME study was conducted using PreADMET web-based software. The results of the drug scan test on the MPs4 isolate compound have a value that meets the requirements in all parameters such as molecular weight, proton donor, proton acceptor, Log p and molar refractory. The ADME test results on the MPs4 Isolate compound have a value that meets the requirements in all parameters of Caco2, HIA (Human Intestinal Absorption), and in PPB (Protein Plasma Binding). The results of the docking, the Isolate MPs4 compound are the best compounds and meet the requirements because they have smaller binding affinity than natural ligands and comparison ligands (Glibenclamide). The results of this study, MPs4 isolate can be used as a candidate for new antidiabetic drugs, but still requires further research, including In vitro and In vivo tests.
红曲霉Azaphilone Monascus sp.抗糖尿病候选化合物的硅检测研究。
红曲霉可以作为大米发酵生产红米的一种成分,这种红米被称为Angkak。在亚洲,Angkak被用作含有生物活性化合物的传统药物和食品,其中一种是monakolin,它有潜力成为营养保健品。红曲霉产生五种主要的色素:具有生物活性的红色(红曲霉素、红曲霉素)、橙色(红曲霉素、红曲霉素)和黄色(红曲霉素、红褐色素)。在随后的发展中,人们发现了红曲霉属主要色素的衍生物,但关于其生物效应的信息仍然非常有限。本研究的目的是确定红曲霉属色素衍生物作为抗糖尿病药物的候选化合物。本研究使用57种色素衍生物红曲霉属植物,并在计算机上完成。2GPA蛋白(糖原磷酸化酶)被用作抗糖尿病受体。本研究使用的软件包括ChemDraw, Marvin Sketch, Molegro Molecular Viewer, Biovia Discovery Studio和Autodock。ADME研究使用基于网络的PreADMET软件进行。MPs4分离化合物的药物扫描测试结果在分子量、质子供体、质子受体、Log p、摩尔难熔性等参数上均满足要求。MPs4 Isolate化合物的ADME测试结果在Caco2、HIA (Human Intestinal Absorption)和PPB (Protein Plasma Binding)的所有参数中均满足要求。对接结果表明,与天然配体和比较配体(格列本脲)相比,分离得到的MPs4化合物具有较小的结合亲和力,是最理想的化合物,符合要求。本研究结果表明,MPs4分离物可作为新型降糖药物的候选物,但仍需要进一步的研究,包括体外和体内试验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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