分子内氧杂烯丙基-羰基(3 + 2)环加成反应。
Intramolecular oxyallyl-carbonyl (3 + 2) cycloadditions.
机构信息
School of Chemistry, The University of Melbourne, and Australian Research Council Centre of Excellence for Free Radical Chemistry and Biotechnology, VIC 3010, Australia.
出版信息
J Am Chem Soc. 2013 Apr 10;135(14):5242-5. doi: 10.1021/ja312459b. Epub 2013 Apr 1.
Abstract
Cycloadditions involving oxyallyl intermediates typically require an electron-rich diene or alkene, but we have discovered the first examples of the cycloaddition of heteroatom-stabilized oxyallyls onto carbonyl groups. An oxazolidinone-substituted oxyallyl undergoes chemoselective (3 + 2) cycloaddition onto the carbonyl group of a tethered dienone in preference to formation of the expected (4 + 3) cycloadduct. Density functional theory calculations indicated that the (3 + 2) cycloaddition takes place through a concerted, highly asynchronous mechanism. The transition state features simultaneous interactions of the oxyallyl LUMO with the carbonyl π and lone-pair orbitals, making this reaction "hemipseudopericyclic" (halfway between purely pericyclic and purely pseudopericyclic). Further (3 + 2) cycloadditions involving tethered phenyl ketones and a tethered enone were predicted theoretically and verified experimentally.
摘要
涉及氧杂丙二烯中间体的环加成通常需要富电子二烯或烯烃,但我们已经发现首例杂原子稳定的氧杂丙二烯与羰基的加成反应。一个氮杂环丙烷取代的氧杂丙二烯优先发生化学选择性(3 + 2)环加成到连接的二烯酮的羰基上,而不是形成预期的(4 + 3)环加合物。密度泛函理论计算表明,(3 + 2)环加成通过协同、高度异步的机制发生。过渡态的特征是氧杂丙二烯的 LUMO 与羰基的π和孤对轨道的同时相互作用,使该反应成为“半拟周环”(介于纯粹的周环和纯粹的拟周环之间)。进一步的涉及连接的苯基酮和连接的烯酮的(3 + 2)环加成反应在理论上进行了预测,并通过实验得到了验证。
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