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烯醇硼烷加成到α-杂原子取代醛的理论研究。Cornforth模型和极性费尔金-安模型在不对称诱导中的相关性。

Theoretical investigation of enolborane addition to alpha-heteroatom-substituted aldehydes. Relevance of the Cornforth and polar Felkin-Anh models for asymmetric induction.

作者信息

Cee Victor J, Cramer Christopher J, Evans David A

机构信息

Department of Chemistry and Chemical Biology, Harvard University, Cambridge, MA 02138, USA.

出版信息

J Am Chem Soc. 2006 Mar 8;128(9):2920-30. doi: 10.1021/ja0555670.

DOI:10.1021/ja0555670
PMID:16506771
Abstract

The addition of enolborane nucleophiles to chiral alpha-heteroatom-substituted aldehydes (CH(3)CH(X)CHO, X = F, Cl, OMe, SMe, NMe(2), and PMe(2)) was investigated using density functional theory by means of B3LYP/6-31G(d) calculations, with particular emphasis on determining the relevance of the polar Felkin-Anh and Cornforth models for asymmetric induction in these reactions. The relative energy of the polar Felkin-Anh and Cornforth transition-state structures is found to depend on the nature of the alpha-heteroatom substituent, with electronegative substituents (F, OMe, Cl) favoring Cornforth structures, while less electronegative substituents (PMe(2), SMe, NMe(2)) favor polar Felkin-Anh structures. These transition-state preferences are correlated with the relative energy of the corresponding rotamer of the uncomplexed reactant aldehyde, indicating that the transition states are particularly sensitive to the conformation of the aldehyde. The proposed Nu --> sigma*(C-X) interaction that forms the basis of the polar Felkin-Anh model appears to be insignificant in reactions with enolborane nucleophiles. The calculated transition-state structures for the addition of E- and Z-enolborane nucleophiles to 2-methoxypropanal predict a diastereofacial selectivity that is in good agreement with the experimentally determined values.

摘要

采用密度泛函理论,通过B3LYP/6 - 31G(d)计算方法,研究了烯醇硼烷亲核试剂与手性α-杂原子取代醛(CH(3)CH(X)CHO,X = F、Cl、OMe、SMe、NMe(2)和PMe(2))的加成反应,特别着重于确定极性费尔金-安模型和康福思模型在这些反应中不对称诱导的相关性。发现极性费尔金-安和康福思过渡态结构的相对能量取决于α-杂原子取代基的性质,电负性取代基(F、OMe、Cl)有利于康福思结构,而电负性较小的取代基(PMe(2)、SMe、NMe(2))有利于极性费尔金-安结构。这些过渡态偏好与未络合反应物醛相应旋转异构体的相对能量相关,表明过渡态对醛的构象特别敏感。构成极性费尔金-安模型基础的所提出的Nu --> σ*(C - X)相互作用在与烯醇硼烷亲核试剂的反应中似乎并不重要。E-和Z-烯醇硼烷亲核试剂与2-甲氧基丙醛加成反应的计算过渡态结构预测的非对映面选择性与实验测定值吻合良好。

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