Hunter Roger, Richards Philip
Department of Chemistry University of Cape Town, Rondebosch 7701, Cape Town, South Africa.
Org Biomol Chem. 2003 Jul 7;1(13):2348-56. doi: 10.1039/b303031h.
Cyclization under both radical and carbanionic conditions of N-substituted 3-phenylsulfanylisoindolin-1-one 14 containing a chiral N-tether incorporating an enoate ester as the acceptor leads to tetrahydropyrido[2,1-a]isoindolones stereoselectively. The major product 17 from carbanionic cyclization was stereoselectively desulfurized with nickel boride allowing correlation of cyclization products from both methodologies. The cyclization stereoselectivities have been rationalised using a transition-state model in which the acceptor grouping adopts a pseudoaxial configuration. This contrasts with other 6-exo-trig processes in which a pseudoequatorial configuration is normally adopted, and has been attributed to the steric influence imposed by the bulky tert-butyldiphenylsilyloxy chiral auxiliary allylic to the enoate ester. The product stereochemistries provide models for the required cis-stereochemistry of the D/E ring fusion of the Tacaman alkaloid skeleton via the relatively unexplored C-3-C-14 bond disconnection.
在自由基和碳负离子条件下,含手性N-连接基(其中烯酸酯作为受体)的N-取代3-苯硫基异吲哚啉-1-酮14进行环化反应,可立体选择性地生成四氢吡啶并[2,1-a]异吲哚酮。碳负离子环化反应产生的主要产物17用硼化镍进行立体选择性脱硫,从而实现两种方法所得环化产物的关联。环化立体选择性已通过过渡态模型进行合理化解释,在该模型中受体基团采取假轴向构型。这与其他通常采取假赤道构型的6-外向-三取代反应不同,这归因于烯酸酯烯丙基位庞大的叔丁基二苯基硅氧基手性助剂所施加的空间影响。产物立体化学通过相对未被探索的C-3-C-14键断裂,为塔卡曼生物碱骨架D/E环稠合所需的顺式立体化学提供了模型。