The binding tendencies of the enantiomeric forms, R,R and S,S, of the neutral receptor 1 towards anions were investigated through UV-vis and 1H NMR titrn. expts. in DMSO. Both enantiomers form stable H-bond complexes with carboxylates and phosphates. In particular, receptor 1 strongly binds two H2PO4- ions according two stepwise equil., in which logK2 is higher than logK1. Such an unusual cooperativity effect is to be ascribed to the formation of strong H-bond interactions between the two H2PO4- anions, when bound to the two urea subunits of the receptor, as demonstrated by the crystal and mol. structures of the 1 : 2 complex salt: [Bu4N]2[R,R-1•••(H2PO4)2]. The S,S enantiomer forms an H-bond complex with the biol. relevant d-2,3-diphosphoglycerate anion, whose assocn. const. is twice that of the R,R complex. Such an effect is ascribed to the different structural features of the two diastereomeric complexes in soln., as shown by 31P NMR studies.
Chiral receptors for phosphate ions
AMENDOLA, VALERIA;BOIOCCHI, MASSIMO;ESTEBAN GOMEZ, DAVID;FABBRIZZI, LUIGI;MONZANI, ENRICO
2005-01-01
Abstract
The binding tendencies of the enantiomeric forms, R,R and S,S, of the neutral receptor 1 towards anions were investigated through UV-vis and 1H NMR titrn. expts. in DMSO. Both enantiomers form stable H-bond complexes with carboxylates and phosphates. In particular, receptor 1 strongly binds two H2PO4- ions according two stepwise equil., in which logK2 is higher than logK1. Such an unusual cooperativity effect is to be ascribed to the formation of strong H-bond interactions between the two H2PO4- anions, when bound to the two urea subunits of the receptor, as demonstrated by the crystal and mol. structures of the 1 : 2 complex salt: [Bu4N]2[R,R-1•••(H2PO4)2]. The S,S enantiomer forms an H-bond complex with the biol. relevant d-2,3-diphosphoglycerate anion, whose assocn. const. is twice that of the R,R complex. Such an effect is ascribed to the different structural features of the two diastereomeric complexes in soln., as shown by 31P NMR studies.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
