%0 Journal Article %A Spivey, Alan C. %A Fekner, Tomasz %A Spey, Sharon E. %A Adams, Harry %D 1999 %T Configurationally Stable Biaryl Analogues of 4-(Dimethylamino)pyridine:  A Novel Class of Chiral Nucleophilic Catalysts %U https://acs.figshare.com/articles/journal_contribution/Configurationally_Stable_Biaryl_Analogues_of_4-_Dimethylamino_pyridine_A_Novel_Class_of_Chiral_Nucleophilic_Catalysts/3719196 %R 10.1021/jo991011h.s003 %2 https://ndownloader.figshare.com/files/5810892 %K biaryl axes %K methyl %K DMAP %K rotation %K pyridine core 16 %K configurationally %K chiral nucleophilic catalysts %K Biaryls 55 %K Chiral Nucleophilic Catalysts %K biaryls 31 %K Comparative HPLC studies %K Compounds 55 %K Novel Class %K biaryl axis %K Ar %K Configurationally Stable Biaryl Analogues %K ambient temperature %K atropisomeric analogues %K acyl transfer %K pyrrolidino substituent ortho %K novel class %X A short synthetic approach toward a novel class of chiral nucleophilic catalysts, the dissymmetry of which stems from restricted rotation about an Ar−Ar bond, has been developed. The key steps of the synthesis include preparation of a nucleophilic 1-methyl-2-pyrrolino[3,2-c]pyridine core 16 by ortho-lithiation and creation of the biaryl axes via Suzuki cross-coupling reactions. Comparative HPLC studies of racemization for configurationally labile biaryls 31, 38, and 43 containing 1-methyl-2-pyrrolino[3,2-c]pyridine, 4-(dimethylamino)pyridine, and 4-(1-pyrrolidino)pyridine cores, respectively, have demonstrated that a pyrrolidino substituent ortho to the biaryl axis is optimal for slowing Ar−Ar rotation. Biaryls containing all three cores have been shown to retain DMAP-like catalytic activity in the acylation of a hindered alcohol. Biaryls 55 and 56, which are configurationally stable at ambient temperature, have also been prepared via modification of configurationally labile derivatives. Compounds 55 and 56 in optically pure form should provide a useful starting point for studies on catalytic asymmetric acyl transfer using atropisomeric analogues of DMAP. %I ACS Publications