Comparative modeling, comparative molecular docking analyses, and revealing of potential binding pockets of MDM-2: A candidate cancer gene

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Abstract

MDM-2 is also known as E3 ubiquitin-protein ligase encoded by Mdm-2. MDM-2 is an important negative regulator of p53 tumor suppressor and performs key function as an inhibitor of p53 transcriptional activation and E3 ubiquitin ligase. MDM-2 also plays significant role in human cancers and therapeutic target. Hundred different structures were predicted through comparative modeling, threading and ab initio approaches followed by the evaluation of predicted structures through various evaluation tools including ERRAT, ProSa-web, Rampage, molprobidity, verify3D and Anolea. The selected 3D structure of MDM-2 showed 13 α- helix chains, 2 β-pleated sheets along with 97.4468% overall quality factor of the predicted structure. Interestingly, it was observed that only 4.5% residues were present in outlier region and the observed errors were fixed. Moreover, 91.1% residues of the selected structure were present in favored region and 8.9% in allowed region having -6.0 Z-score. High throughput virtual screening and comparative molecular docking studies was performed. Four novel compounds have been reported that showed minimum binding energy (-8.1 Kcal/mol) and maximum binding affinity against MDM-2. Molecular docking analyses revealed that Ser154, Arg155, Pro156, Ser157, Lys185, Ser186, Ser188, Ser190, Ile189, Val247, Glu257, Asp173, Glu174, Glu178, Arg161, Ard181, Lys182, Arg183 and His184 residues are significant residues for therapeutic drug targets. The reported compounds showed effective energy scores. In addition, the site-directed mutagenesis may be helpful for further analyses. The reported compounds may act like potent drug compounds against MDM-2.
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比较建模,比较分子对接分析,并揭示潜在的结合袋MDM-2:一个候选癌症基因
MDM-2也被称为由MDM-2编码的E3泛素蛋白连接酶。MDM-2是p53肿瘤抑制因子的重要负调控因子,作为p53转录激活和E3泛素连接酶的抑制剂发挥关键作用。MDM-2在人类癌症和治疗靶点中也发挥着重要作用。通过比较建模、线程和从头算方法预测了100种不同的结构,然后通过ERRAT、ProSa-web、Rampage、molprobidity、verify3D和Anolea等各种评估工具对预测的结构进行了评估。所选MDM-2的三维结构为13个α-螺旋链,2个β-褶片,整体质量因子为预测结构的97.4468%。有趣的是,在离群区仅存在4.5%的残差,并且观测误差是固定的。此外,所选结构的91.1%残基存在于有利区,8.9%存在于允许区,z -6.0分。进行了高通量虚拟筛选和比较分子对接研究。四种新化合物对MDM-2具有最小结合能(-8.1 Kcal/mol)和最大结合亲和力。分子对接分析显示,Ser154、Arg155、Pro156、Ser157、Lys185、Ser186、Ser188、Ser190、Ile189、Val247、Glu257、Asp173、Glu174、Glu178、Arg161、Ard181、Lys182、Arg183和His184是治疗药物靶点的重要残基。所报道的化合物显示出有效的能量得分。此外,位点定向诱变可能有助于进一步的分析。所报道的化合物可能像抗MDM-2的强效药物化合物一样起作用。
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