Alkylidene Dihydropyridines As Synthetic Intermediates: Model Studies toward the Synthesis of the Bis(piperidine) Alkaloid Xestoproxamine C

Lansakara Ashabha I.; Mariappan S. V. Santhana; Pigge F. Christopher

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Alkylidene Dihydropyridines As Synthetic Intermediates: Model Studies toward the Synthesis of the Bis(piperidine) Alkaloid Xestoproxamine C

机译：亚烷基二氢吡啶类化合物作为合成中间体：合成双（哌啶）生物碱美托洛敏C的模型研究

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Results of model studies demonstrating a stereoselective synthetic route to tricyclic analogues of the bis(piperidine) alkaloid xestoproxamine C are presented. Dearomatization of a tricyclic pyridine derivative to afford an alkylidene dihydropyridine (anhydrobase) intermediate followed by catalytic heterogeneous hydrogenation was used to install the correct relative stereochemistry about the bis(piperidine) ring system. Other key features of these model studies include development of an efficient ring-closing metathesis procedure to prepare macrocyclic derivatives disusbstituted pyridines, intramolecular cyclizations of alkylidene dihydropyridines to establish pyridine-substituted pyrrolidines and piperidines, successful homologation of pyridine-4-carboxaldehydes using formaldehyde dimethyl thioacetal monoxide (FAMSO), and application of B-alkyl Suzuki coupling to assemble substituted pyridines.

机译：提出了模型研究的结果，该模型表明了立体选择性合成路线的双（哌啶）生物碱美托洛明C三环类似物。三环吡啶衍生物的脱芳香化反应得到亚烷基二氢吡啶（脱水碱）中间体，然后进行催化非均相氢化，以建立有关双（哌啶）环体系的正确相对立体化学。这些模型研究的其他关键特征包括：开发一种有效的闭环复分解程序以制备大环衍生物，该大环衍生物被取代的吡啶;亚烷基二氢吡啶的分子内环化作用，以建立吡啶取代的吡咯烷和哌啶;使用甲醛二甲基硫缩醛成功地将吡啶-4-甲醛同源化一氧化碳（FAMSO），以及将B-烷基铃木偶联用于组装取代的吡啶。

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《The Journal of Organic Chemistry》 |2016年第21期|共13页
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Lansakara Ashabha I.; Mariappan S. V. Santhana; Pigge F. Christopher;
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1. Alkylidene Dihydropyridines As Synthetic Intermediates: Model Studies toward the Synthesis of the Bis(piperidine) Alkaloid Xestoproxamine C [J] . Lansakara Ashabha I., Mariappan S. V. Santhana, Pigge F. Christopher The Journal of Organic Chemistry . 2016,第21期

机译：亚烷基二氢吡啶类化合物作为合成中间体：合成双（哌啶）生物碱美托洛敏C的模型研究
2. Stereoselective tetrapyrido[2,1-α]isoindolone synthesis via carbanionic and radical intermediates: a model study for the Tacaman alkaloid D/E ring fusion [J] . Roger Hunter, Philip Richards Organic & biomolecular chemistry . 2003,第13期

机译：通过碳负离子和自由基中间体合成立体选择性四吡啶并[2,1-α]异吲哚酮：Tacaman生物碱D / E环融合的模型研究
3. Stereoselective tetrahdyropyrido[2,1-a]isoindolone synthesis via carbanionic and radical intermediates:a model study for the Tacaman alkaloid D/E ring fusion [J] . Hunter Roger, Richards Philip Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry . 2000,第19期

机译：通过碳负离子和自由基中间体合成立体选择性四氢吡喃并[2,1-a]异吲哚酮：塔卡曼生物碱D / E环融合的模型研究
4. Synthetic study towards (+)-vertine and (+)-Iythrine: synthesis of the intermediate of benzyl-2-(1-methoxy-1, 3-dioxobutan-2-yl)piperidine-1-c arboxylate [C] . Shuangjie Lin, Xiao Leng, Xiaoji Wang, International Conference on Machinery, Materials Engineering, Chemical Engineering and Biotechnology . 2016

机译：（+） - 顶周和（+） - Iythrine：合成苄基-2-（1-甲氧基-1,3-二氧丁香丁酸-2-基）哌啶-1-乙酸酯的中间体的合成
5. Part I. General approach to the total synthesis of 9-methoxy substituted indole alkaloids: Total synthesis of the opioid agonistic indole alkaloid, mitragynine as well as 9-methoxy-geissoschizol and 9-methoxy-N(b)-methylgeissoschizol. Part II. Studies toward the total synthesis of the antimalarial bisindole alkaloid villastonine. [D] . Ma, Jun. 2006

机译：第一部分。9-甲氧基取代的吲哚生物碱的总合成的一般方法：阿片类激动剂吲哚生物碱，米塔吉宁以及9-甲氧基-Geissoschizol和9-甲氧基-N（b）-甲基Geissoschizol的总合成。第二部分对抗疟药双吲哚生物碱坏死精的全合成的研究。
6. Xestoproxamines A–C from Neopetrosiaproxima. Assignment of Absolute Stereostructure ofbis-Piperidine Alkaloids by Integrated Degradation-CDAnalysis [O] . Brandon I. Morinaka, Tadeusz F. Molinski -1

机译：Xestoproxamines a-C从Neopetrosia玛。绝对立体的分配双哌啶生物碱集成降解-CD分析
7. Synthetic Studies on the Lycopodium Alkaloids. III. Synthesis of a Key Intermediate, Ethyl Octahydro-4aβ-hydroxy-7β-methyl-10-oxo-1H-5, 8α-propanoquinoline-1-carbamate, for the Lycopodium Alkaloids [O] . ZENICHI HORII, SANGWON KIM, TAKESHI IMANISHI, 1970

机译：氯氰酸生物碱的合成研究。 III。合成关键中间体，乙基烯至羟基-4Aβ-羟基-7β-甲基-10-氧代-1H-5,8α-丙喹喹啉-1-氨基甲酸酯，用于氯哌啶啶生物碱

Alkylidene Dihydropyridines As Synthetic Intermediates: Model Studies toward the Synthesis of the Bis(piperidine) Alkaloid Xestoproxamine C

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