Kong Jong-Rock, Cho Chang-Woo, Krische Michael J
Department of Chemistry and Biochemistry, University of Texas at Austin, Austin, Texas 78712, USA.
J Am Chem Soc. 2005 Aug 17;127(32):11269-76. doi: 10.1021/ja051104i.
Rhodium-catalyzed hydrogenation of 1,3-enynes 1a-8a and 1,3-diynes 9a-13a at ambient temperature and pressure in the presence of ethyl (N-tert-butanesulfinyl)iminoacetate and ethyl (N-2,4,6-triisopropylbenzenesulfinyl)iminoacetates, respectively, results in reductive coupling to afford unsaturated alpha-amino acid esters 1b-13b in good to excellent yields with exceptional levels of regio- and stereocontrol. Further hydrogenation of the diene containing alpha-amino acid esters 1b-8b using Wilkinson's catalyst at ambient temperature and pressure results in regioselective reduction to afford the beta,gamma-unsaturated alpha-amino acid esters 1c-8c in good to excellent yields. Exhaustive hydrogenation of the unsaturated side chains of the Boc- and Fmoc-protected derivatives of enyne and diyne coupling products 14b-16b occurs in excellent yield using Crabtree's catalyst at ambient temperature and pressure providing the alpha-amino acid esters 14d-16d, which possess saturated side chains. Finally, cross-metathesis of the Boc-protected reductive coupling product 14b with cis-1,4-diacetoxy-2-butene proceeds readily to afford the allylic acetate 14e. Isotopic labeling studies that involve reductive coupling of enyne 1a and diyne 9a under an atmosphere of elemental deuterium corroborate a catalytic mechanism in which oxidative coupling of the alkyne and imine residues is followed by hydrogenolytic cleavage of the resulting metallacycle. A stereochemical model accounting for the observed sense of asymmetric induction is provided. These studies represent the first use of imines as electrophilic partners in hydrogen-mediated reductive carbon-carbon bond formation.
铑催化的1,3-烯炔1a - 8a和1,3-二炔9a - 13a分别在室温常压下,于(N-叔丁基亚磺酰基)亚氨基乙酸乙酯和(N-2,4,6-三异丙基苯亚磺酰基)亚氨基乙酸乙酯存在下进行氢化反应,会发生还原偶联反应,以良好至优异的产率得到具有出色区域和立体控制水平的不饱和α-氨基酸酯1b - 13b。在室温常压下使用威尔金森催化剂对含α-氨基酸酯的二烯1b - 8b进一步氢化,会发生区域选择性还原反应,以良好至优异的产率得到β,γ-不饱和α-氨基酸酯1c - 8c。使用克拉布特里催化剂在室温常压下,烯炔和二炔偶联产物14b - 16b的Boc-和Fmoc-保护衍生物的不饱和侧链会以优异的产率发生彻底氢化反应,得到具有饱和侧链的α-氨基酸酯14d - 16d。最后,Boc保护的还原偶联产物14b与顺式-1,4-二乙酰氧基-2-丁烯的交叉复分解反应很容易进行,得到烯丙基乙酸酯14e。涉及在元素氘气氛下烯炔1a和二炔9a还原偶联的同位素标记研究证实了一种催化机理,其中炔烃和亚胺残基先进行氧化偶联,随后对生成的金属环进行氢解裂解。提供了一个解释观察到的不对称诱导方向的立体化学模型。这些研究代表了亚胺首次作为亲电试剂参与氢介导的还原碳-碳键形成反应。