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首页> 外文期刊>Journal of Molecular Modeling >Exploring the structure of opioid receptors with homology modeling based on single and multiple templates and subsequent docking: A comparative study
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Exploring the structure of opioid receptors with homology modeling based on single and multiple templates and subsequent docking: A comparative study

机译:基于单个和多个模板并随后对接的同源性模型探索阿片样物质受体的结构:对比研究

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Opioid receptors are the principal targets for opioids, which have been used as analgesics for centuries. Opioid receptors belong to the rhodopsin family of G-protein coupled receptors (GPCRs). In the absence of crystal structures of opioid receptors, 3D homology models have been reported with bovine rhodopsin as a template, though the sequence homology is low. Recently, it has been reported that use of multiple templates results in a better model for a target having low sequence identity with a single template. With the objective of carrying out a comparative study on the structural quality of the 3D models based on single and multiple templates, the homology models for opioid receptors (mu, delta and kappa) were generated using bovine rhodopsin as single template and the recently deposited crystal structures of squid rhodopsin, turkey β-1 and human β-2 adrenoreceptors along with bovine rhodopsin as multiple templates. In this paper we report the results of comparison between the refined 3D models based on multiple sequence alignment (MSA) and models built with bovine rhodopsin as template, using validation programs PROCHECK, PROSA, Verify 3D, Molprobity and docking studies. The results indicate that homology models of mu and kappa with multiple templates are better than those built with only bovine rhodopsin as template, whereas, in many aspects, the homology model of delta opioid receptor with single template is better with respect to the model based on multiple templates. Three nonselective ligands were docked to both the models of mu, delta and kappa opioid receptors using GOLD 3.1. The results of docking complied well with the pharamacophore, reported for nonspecific opioid ligands. The comparison of docking results for models with multiple templates and those with single template have been discussed in detail. Three selective ligands for each receptor were also docked. As the crystallographic structures are not yet known, this comparison will help in choosing better homology models of opioid receptors for studying ligand receptor interactions to design new potent opioid antagonists.
机译:阿片受体是阿片类药物的主要靶标,阿片类药物已被用作镇痛药已有数百年历史了。阿片受体属于视紫红质的G蛋白偶联受体(GPCR)。在没有阿片样物质受体的晶体结构的情况下,虽然序列同源性较低,但据报道以牛视紫红质为模板的3D同源性模型。近来,已经报道了使用多个模板导致针对具有与单个模板的低序列同一性的靶标的更好的模型。为了对基于单个和多个模板的3D模型的结构质量进行比较研究,以牛视紫红质为单模板并最近沉积的晶体生成了阿片受体(mu,delta和kappa)的同源性模型。鱿视紫红质,火鸡β-1和人β-2肾上腺素能受体的结构以及牛视紫红质作为多个模板。在本文中,我们使用验证程序PROCHECK,PROSA,Verify 3D,Molprobity和对接研究,报告了基于多序列比对(MSA)的精制3D模型与以牛视紫红质为模板构建的模型之间的比较结果。结果表明,具有多个模板的mu和κ的同源性模型比仅以牛视紫红质为模板的同源性好,而在许多方面,具有单个模板的δ阿片受体的同源性模型优于基于单个模板的δ阿片受体。多个模板。使用GOLD 3.1将三种非选择性配体对接到mu,delta和kappa阿片受体模型上。对接的结果与据报导的非特异性阿片样物质配体的药效良好。已经详细讨论了具有多个模板的模型和具有单个模板的模型的对接结果的比较。每个受体的三个选择性配体也被对接。由于尚不知道晶体结构,因此该比较将有助于选择更好的阿片受体同源性模型,以研究配体受体相互作用以设计新的有效阿片拮抗剂。

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