Hartung Jens, Daniel Kristina, Rummey Christian, Bringmann Gerhard
Fachbereich Chemie, Organische Chemie, Technische Universität Kaiserslautern, Kaiserslautern, Germany.
Org Biomol Chem. 2006 Nov 21;4(22):4089-100. doi: 10.1039/b611473c.
Ring closure reactions were investigated in a combined computational (density functional theory) and experimental study, to uncover the origin of diastereoselection in 5-exo-trig cyclizations of methyl and tert-butyl-substituted 4-penten-1-oxyl radicals. Selectivity data were calculated on the basis of transition state theory, the Curtin-Hammett principle, and Maxwell-Boltzmann statistics, to provide an excellent correlation between computed and experimental cis-trans ratios. The data show that the 2,3-trans-, 2,4-cis-, and 2,5-trans-diastereoselection exerted by CH3 and C(CH3)3 groups increases along substituent positions 1 < 2 < 3, with the effect of tert-butyl substituents being more pronounced. Theory states that the favored mode of cyclization proceeds via intermediates that are characterized by an offset of atoms C2 and C3 into opposite directions from the plane of O1 (radical center)/C5 (olefinic C)/C4 (allylic C). This arrangement allows alkyl substituents and the =CH2 entity to adopt positions that are associated with the fewest and least severe synclinal and synperiplanar interactions. A transition structure notation is proposed based on conformational characteristics of the heterocycle, the intermediates structurally resemble the closest, i.e. tetrahydrofuran. The new transition state model serves as an alternative to cyclohexane-based guidelines and adequately addresses hitherto unsettled instances properly, such as the lack in diastereoselectivity observed in the 1-phenyl-4-penten-1 -oxyl radical 5-exo-trig ring closure.
在一项结合计算(密度泛函理论)和实验的研究中,对环化反应进行了研究,以揭示甲基和叔丁基取代的4-戊烯-1-氧基自由基的5-外向-三角环化反应中,非对映选择性的起源。基于过渡态理论、柯廷-哈米特原理和麦克斯韦-玻尔兹曼统计计算了选择性数据,以提供计算的顺反比率与实验值之间的良好相关性。数据表明,CH3和C(CH3)3基团产生的2,3-反式、2,4-顺式和2,5-反式非对映选择性沿着取代基位置1 < 2 < 3增加,叔丁基取代基的影响更为明显。理论表明,有利的环化模式通过中间体进行,这些中间体的特征是原子C2和C3从O1(自由基中心)/C5(烯基C)/C4(烯丙基C)平面向相反方向偏移。这种排列使烷基取代基和=CH2实体能够采取与最少和最不严重的邻位交叉和顺式共平面相互作用相关的位置。基于杂环的构象特征提出了一种过渡结构表示法,中间体在结构上与最接近的结构相似,即四氢呋喃。新的过渡态模型可替代基于环己烷的指导原则,并能妥善处理迄今尚未解决的情况,如在1-苯基-4-戊烯-1-氧基自由基的5-外向-三角环化反应中观察到的非对映选择性不足。