Pyrrole-Protected β-Aminoalkylzinc Reagents for the Enantioselective Synthesis of Amino-Derivatives.

Abstract

Chiral β‐aminoalkylzinc halides were prepared starting from optically pure commercial β‐amino‐alcohols. These amino‐alcohols were converted to the corresponding N‐pyrrolyl‐protected alkyl iodides which undergo a zinc insertion in the presence of LiCl (THF, 25 °C, 10–90 min). Subsequent Negishi cross‐coupling or acylation reactions with acid chlorides produced amino‐derivatives with retention of chirality. Diastereoselective CBS‐reductions of some prepared N‐pyrrolyl‐ketones provided 1,3‐subsituted N‐pyrrolyl‐alcohols with high diastereoselectivity. Additionally, a deprotection procedure involving an ozonolysis allowed the conversion of the pyrrole‐ring into a formamide without loss of optical purity.