posted on 2013-05-29, 00:00authored byPeter
J. Rayner, Peter O’Brien, Richard
A. J. Horan
A strategy
for the generation of enantiomerically pure α-functionalized
chiral Grignard reagents is presented. The approach involves the synthesis
of α-alkoxy and α-amino sulfoxides in ≥99:1 dr
and ≥99:1 er via asymmetric deprotonation (s-BuLi/chiral diamine) and trapping with Andersen’s sulfinate
(menthol derived). Subsequent sulfoxide → Mg exchange (room
temperature, 1 min) and electrophilic trapping delivers a range of
enantiomerically pure α-alkoxy and α-amino substituted
products. Using this approach, either enantiomer of products can be
accessed in 99:1 er from asymmetric deprotonation protocols without
the use of (−)-sparteine as the chiral ligand. Two additional
discoveries are noteworthy: (i) for the deprotonation and trapping
with Andersen’s sulfinate, there is a lack of stereospecificity
at sulfur due to attack of a lithiated intermediate onto the α-alkoxy
and α-amino sulfoxides as they form, and (ii) the α-alkoxy-substituted
Grignard reagent is configurationally stable at room temperature for
30 min.