DFT-based QSAR and Action Mechanism of Phenylalkylamine and Tryptamine Hallucinogens 被引量：2

DFT-based QSAR and Action Mechanism of Phenylalkylamine and Tryptamine Hallucinogens

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摘要 DFT/B3LYP/6-311G＋（d,p） basis set including solvent effect was first used to calculate a set of molecular descriptors of 55 phenylalkylamine and 20 tryptamine compounds with hallucinogenic activity. Four quantitative structure-activity relationship （QSAR） models of the hallucinogenic activity for phenylalkylamines and tryptamines were obtained by employing multiple linear regression （MLR） method. The QSAR analysis indicated that electron-related descriptors were major contributors to the hallucinogenic activities of phenylalkylamines and tryp- tamines. In addition, electron-unrelated descriptors have some impact on the hallucinogenic activities of phenylal- kylamines. Based on the results of QSAR study, a novel Conformation Complementary Judgement, Transformation and Induction （CCJTI） model had been proposed to explain different action mechanisms of phenylalkylamines and tryptamines with their target receptors. It was concluded that phenylalkylamines might combine with receptor by electronic effect, but steric factor could affect it also, whereas tryptamines could act only through the electronic effect. DFT/B3LYP/6-311G＋（d,p） basis set including solvent effect was first used to calculate a set of molecular descriptors of 55 phenylalkylamine and 20 tryptamine compounds with hallucinogenic activity. Four quantitative structure-activity relationship （QSAR） models of the hallucinogenic activity for phenylalkylamines and tryptamines were obtained by employing multiple linear regression （MLR） method. The QSAR analysis indicated that electron-related descriptors were major contributors to the hallucinogenic activities of phenylalkylamines and tryp- tamines. In addition, electron-unrelated descriptors have some impact on the hallucinogenic activities of phenylal- kylamines. Based on the results of QSAR study, a novel Conformation Complementary Judgement, Transformation and Induction （CCJTI） model had been proposed to explain different action mechanisms of phenylalkylamines and tryptamines with their target receptors. It was concluded that phenylalkylamines might combine with receptor by electronic effect, but steric factor could affect it also, whereas tryptamines could act only through the electronic effect.

作者张绍飞范英芳史智英成素丽

机构地区 Key Laboratory of Chemical Biology and Molecular Engineering of the Education Ministry

出处《Chinese Journal of Chemistry》 SCIE CAS CSCD 2011年第4期623-630,共8页 中国化学（英文版）

基金 Project supported by the Natural Science Foundation of Shanxi Province （No. 2007011025） and Scientific Research Foundation for the Returned Overseas Chinese Scholars of Shanxi Province.

关键词 phenylalkylamines TRYPTAMINES HALLUCINOGENS action mechanism structure-activity relationships density functional calculations phenylalkylamines, tryptamines, hallucinogens, action mechanism, structure-activity relationships density functional calculations

分类号 O621.2 [理学—有机化学] TQ464.71 [化学工程—制药化工]

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Chinese Journal of Chemistry

2011年第4期

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DFT-based QSAR and Action Mechanism of Phenylalkylamine and Tryptamine Hallucinogens 被引量：2

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