Friestad Gregory K, Mathies Alex K
Department of Chemistry, University of Iowa, Iowa City, Iowa, 52242.
Tetrahedron. 2007 Sep 17;63(38):9373-9381. doi: 10.1016/j.tet.2007.06.117.
Access to multifunctional hydrazones of relevance to dysiherbaine synthesis studies is described. Subsequent radical cyclizations of multifunctional hydrazones via a Si- and C-linked tethering strategy are shown to function effectively in 6-exo fashion. Conformational constraints are proposed to play a key role in suppressing unproductive premature reduction pathways. The stereochemical outcomes suggest that minimizing the dipole repulsion between neighboring C=N and C-O bonds favors a C(alpha)-C(=N) dihedral angle placing the C=N bond axial within a chairlike transition state, in contrast to the usual Beckwith-Houk model.
描述了获得与dysiherbaine合成研究相关的多功能腙的方法。通过硅和碳连接的 tethering 策略对多功能腙进行的后续自由基环化反应显示以6-外向方式有效进行。提出构象限制在抑制非生产性过早还原途径中起关键作用。立体化学结果表明,与通常的Beckwith-Houk模型相反,使相邻C=N和C-O键之间的偶极排斥最小化有利于形成一个C(α)-C(=N)二面角,使C=N键在椅状过渡态中呈轴向排列。