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Novel, unifying mechanism for mescaline in the central nervous system: Electrochemistry, catechol redox metabolite, receptor, cell signaling and structure activity relationships

机译：中枢神经系统中甲卡斯林的新型统一机制：电化学，儿茶酚氧化还原代谢产物，受体，细胞信号传导和结构活性关系

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A unifying mechanism for abused drugs has been proposed previously from the standpoint of electron transfer. Mescaline can be accommodated within the theoretical framework based on redox cycling by the catechol metabolite with its quinone counterpart. Electron transfer may play a role in electrical effects involving the nervous system in the brain. This approach is in accord with structure activity relationships involving mescaline, abused drugs, catecholamines and etoposide. Inefficient demethylation is in keeping with the various drug properties, such as requirement for high dosage and slow acting.

机译：从电子转移的观点出发，先前已经提出了滥用药物的统一机制。邻苯二酚及其对苯二酚代谢物可在氧化还原循环的基础上将甲斯卡林容纳在理论框架内。电子转移可能在涉及大脑神经系统的电效应中起作用。该方法符合涉及甲斯卡林，滥用药物，儿茶酚胺和依托泊苷的结构活性关系。无效的脱甲基作用与各种药物特性保持一致，例如对高剂量和缓慢作用的要求。

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Kovacic, Peter; Somanathan, Ratnasamy;
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年度 2009
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正文语种 {"code":"en","name":"English","id":9}
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1. Novel, Unifying Mechanism for Mescaline in The Central Nervous System: Electrochemistry, Catechol Redox Metabolite, Receptor, Cell Signaling and Structure Activity Relationships [J] . PeterKovacic, RatnasamySomanathan Oxidative Medicine and Cellular Longevity . 2009,第4期

机译：新型中枢神经系统中甲卡斯林的统一机制：电化学，邻苯二酚氧化还原代谢产物，受体，细胞信号传导和结构活性关系
2. Serotonin 5-HT7 receptor agents: Structure-activity relationships and potential therapeutic applications in central nervous system disorders. [J] . Leopoldo M, Lacivita E, Berardi F, Pharmacology and Therapeutics: The Journal of the International Encyclopedia of Pharmacology and Therapeutics . 2011,第2期

机译：5-羟色胺5-HT7受体药物：中枢神经系统疾病的结构活性关系和潜在的治疗应用。
3. Role of hydrophobicity on the monoamine receptor binding affinities of central nervous system drugs: a quantitative retention–activity relationships analysis using biopartitioning micellar chromatography [J] . C. Quinones-Torrelo, S. Sagrado, R. M. Villanueva-Camanas, Journal of chromatography, B. Analytical technologies in the biomedical and life sciences . 2004,第2期

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4. Insulin Receptors Facilitate Insulin Transport Into The Central Nervous System [C] . Baura, G.D., Foster, . 2001

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5. Changes with age in central nervous system alpha(1)-adrenergic receptors and associated signalling mechanisms in the rat. [D] . Burnett, Donald Mathew. 1989

机译：在大鼠中枢神经系统α（1）-肾上腺素能受体及其相关信号传导机制的年龄变化。
6. Novel unifying mechanism for mescaline in the central nervous system [O] . Peter Kovacic, Ratnasamy Somanathan 2009

机译：新型统一的中枢神经系统中马斯卡林的机制
7. Novel, Unifying Mechanism for Mescaline in The Central Nervous System: Electrochemistry, Catechol Redox Metabolite, Receptor, Cell Signaling and Structure Activity Relationships [O] . Peter Kovacic, Ratnasamy Somanathan 2009

机译：中枢神经系统中mescaline的新型，统一机制：电化学，儿茶酚氧化还原代谢物，受体，细胞信号和结构活性关系
8. Structure and Characterization of Nicotinic Acetylcholine Receptors fromPeripheral and Central Nervous Systems [R] . Raftery, M. A., Conti-Tronconi, B. M. 1991

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Novel, unifying mechanism for mescaline in the central nervous system: Electrochemistry, catechol redox metabolite, receptor, cell signaling and structure activity relationships

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