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首页> 外文期刊>Journal of the American Chemical Society >Expanding Stereoelectronic Limits of endo-tet Cyclizations: Synthesis of Benz[b]azepines from Donor-Acceptor Cyclopropanes
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Expanding Stereoelectronic Limits of endo-tet Cyclizations: Synthesis of Benz[b]azepines from Donor-Acceptor Cyclopropanes

机译:扩大Endo-Tet Clysization的立体电极限制:来自供体 - 受体环丙烷的苯子[B]偶氮病的合成

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摘要

The importance of intramolecular constraints in cyclic transition-state geometries is especially pronounced in n- endo-tet cyclizations, where the usual backside approach of a nucleophile to the breaking bond is impossible for the rings containing less than eight atoms. Herein, we expand the limits of endo-tet cyclizations and show that donor-acceptor cyclopropanes can provide a seven-membered ring via a genuine 6-endo-tet process. Substrates containing a N-alkyl-N-arylcarbamoyl moiety as an acceptor group undergo Lewis acid-induced cyclization to form tetrahydrobenz[b]azepin-2-ones in high yields. The reaction proceeds with the inversion of the configuration at the electrophilic carbon. In this process, a formally six-membered transition state yields a seven-membered ring as the pre-existing cycle is merged into the forming ring. The stereochemistry of the products can be controlled by the reaction time and by the nature of Lewis acid, opening access to both diastereomers by tuning of the reaction conditions.
机译:在循环过渡状态几何形状中的分子内约束的重要性在N- endo-Tet循环中特别明显,其中含有少于八个原子的戒指的核官能官能官能团的常用背面方法是不可能的。在此,我们扩展了内滴式环化的限制,并显示供体 - 受体环丙烷可以通过真正的6- endo-Tet方法提供七元环。含有N-烷基-N-芳基氨基酰基部分作为受体基团的底物经历Lewis酸诱导的环化,以高产率形成四氢苯并[B]偶氮戊四蛋白。反应在电泳碳中进行倒置。在该过程中,正式六元化的过渡状态产生七元环,因为预先存在的循环合并到成形环中。产品的立体化学可以通过反应时间和通过路易斯酸的性质来控制,通过调节反应条件,对两种非对映异构体的开口进入。

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  • 来源
    《Journal of the American Chemical Society》 |2021年第34期|13952-13961|共10页
  • 作者

    Anna E. Vartanova; Andrey Yu. Plodukhin; Nina K. Ratmanova; Ivan A. Andreev; Mikhail N. Anisimov; Nikita B. Gudimchuk; Victor B. Rybakov; Irina I. Levina; Olga A. Ivanova; Igor V. Trushkov; Igor V. Alabugin;

  • 作者单位

    N. D. Zelinsky Institute of Organic Chemistry Russian Academy of Sciences Moscow 119334 Russian Federation Faculty of Science RUDN University Moscow 117198 Russian Federation;

    Department of Chemistry M. V. Lomonosov Moscow State University Moscow 119991 Russian Federation;

    Dmitry Rogachev National Medical Research Center of Pediatric Hematology Oncology and Immunology Moscow 117997 Russian Federation;

    N. D. Zelinsky Institute of Organic Chemistry Russian Academy of Sciences Moscow 119334 Russian Federation Dmitry Rogachev National Medical Research Center of Pediatric Hematology Oncology and Immunology Moscow 117997 Russian Federation;

    Department of Physics M. V. Lomonosov Moscow State University Moscow 119991 Russian Federation Center for Theoretical Problems of Physicochemical Pharmacology Moscow 119334 Russian Federation;

    Department of Physics M. V. Lomonosov Moscow State University Moscow 119991 Russian Federation Center for Theoretical Problems of Physicochemical Pharmacology Moscow 119334 Russian Federation;

    Department of Chemistry M. V. Lomonosov Moscow State University Moscow 119991 Russian Federation;

    Institute of Biochemical Physics Russian Academy of Sciences Moscow 119334 Russian Federation;

    N. D. Zelinsky Institute of Organic Chemistry Russian Academy of Sciences Moscow 119334 Russian Federation Department of Chemistry M. V. Lomonosov Moscow State University Moscow 119991 Russian Federation;

    N. D. Zelinsky Institute of Organic Chemistry Russian Academy of Sciences Moscow 119334 Russian Federation;

    Department of Chemistry and Biochemistry Florida State University Tallahassee Florida 32306-4390 United States;

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