Pc. Hellier et al., CHIRAL PYRIDINE-BASED MACROBICYCLIC CLEFTS - SYNTHESIS AND ENANTIOMERIC RECOGNITION OF AMMONIUM-SALTS, Journal of organic chemistry, 61(21), 1996, pp. 7270-7275
An achiral (3) and two chiral pyridine-based macrobicyclic clefts (4 a
nd 5) have been prepared by treating [[2',6'-bis(bromomethyl)-4'-methy
lphenoxy]pyridine (2) with the appropriate achiral and chiral glycols.
Starting 2 was prepared by first treating 2,6-bis(hydroxymethyl)-4-me
thylphenol with 2,6-[(tosyloxy)methyl]pyridine followed by phosphorus
tribromide. Achiral macrobicyclic cleft 3 formed a complex at 25 degre
es C in 50% CH3OH/50% CHCl3 (v/v) with a primary ammonium salt (log K=
3.15) as evidenced by a significant change in the (1)HNMR spectrum. Hi
ghly organized (S,S,S,S)4, prepared by treating 2 with (1S,5S)-3-oxape
ntane-1,5-diol, exhibited recognition at 25 degrees C in 20% C2H5OH/80
% 1,2-C2H4Cl2 (v/v) for the (S)-enantiomer of alpha-(1-naphthyl)-ethyl
ammonium perchlorate (NapEt) over its (R)-form (Delta log K=0.85). Thi
s high recognition factor probably reflects an increase in molecular r
igidity by the introduction of a second macro ring on the monocyclic p
yridinocrown ligand.