一些选择性摩尔配体的对接结果分析

T. Dzimbova, Fatima Sapundzhi, P. Milanov
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引用次数: 0

摘要

内源性类阿片产生的效果与被称为典型生物碱类阿片剂的化学物质(包括吗啡和海洛因)相同。内源性阿片肽具有激素和神经调节剂的双重功能。本研究旨在分析配体与 MOR 的对接结果,以确定选择性所需的关键要素。许多配体已由我们的同事合成并进行了生物测试。另一部分是文献中已知的化合物。这些结果将有助于设计具有潜在 MOR 激动或拮抗作用的新化合物。配体必须具备某些特性才能发挥活性和功效。首先,配体必须在生物环境中保持稳定,这样才能到达发挥其作用的地方。其次,配体必须具有合适的结构,使其能够到达受体的结合部位并与之相互作用。第三,配体与受体结合后,所产生的配体-受体复合物应是稳定的,即其能量要小。第四,配体在与受体分子相互作用时诱导受体分子产生适当的构象,即与精确定义的氨基酸残基结合。因此,本研究旨在分析达拉京衍生物与 MOR 的对接结果,并确定生物效应显现的必要条件。
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ANALYSIS OF THE DOCKING RESULTS OF SOME SELECTIVE MOR LIGANDS
Endogenous opioids produce the same effects as the chemicals known as classic alkaloid opiates, which includemorphine and heroin. Endogenous opioid peptides function both as hormones and as neuromodulators. The aim ofthe present study was to analyze the results of docking of ligands with MOR to identify the key elements requiredfor selectivity. Many of the ligands have been synthesized and biologically tested by our colleagues. The other partis compounds known in the literature. The analysis of the obtained ligand-receptor complexes makes it possible todetermine the key structural elements associated with the manifestation of specificity with respect to the receptor.These results will assist in the design of new compounds with potential MOR agonistic or antagonistic effects. In order to be active and effective, a ligand must have certain properties. First, it must be stable in a biological environment so that it can reach the place where it will manifest its action. Second, be of a suitable structure to allow it to reach and interact with the receptor’s binding site. Third, upon binding, the resulting ligand-receptor complex should be stable, i.e. its energy to be small. Fourth, the ligand induces the appropriate conformations in the receptor molecule upon interaction, i.e. to bind to precisely defined amino acid residues. Therefore, the present study aims to analyze the docking results of dalargine derivatives with MOR and determine the necessary conditions for the manifestation of the biological effect.
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来源期刊
Journal of Chemical Technology and Metallurgy
Journal of Chemical Technology and Metallurgy Engineering-Industrial and Manufacturing Engineering
CiteScore
1.40
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