(C-13)-SUBSTITUTED SUCROSE - C-13-H-1 AND C-13-C-13 SPIN COUPLING-CONSTANTS TO ASSESS FURANOSE RING AND GLYCOSIDIC BOND CONFORMATIONS IN AQUEOUS-SOLUTION

Sucrose (beta-D-fructofuranosyl alpha-D-glucopyranoside, 1), methyl alpha-D-fructofuranoside (2), and methyl beta-D-fructofuranoside (3) have been prepared by chemical and/or enzymic methods with single sites of C-13-substitution at C-1, C-2, C-3, and C-6 of the fructofuranosyl ring. H-1 (500 MHz) and C-13 (75 and 125 MHz) NMR spectra of 1-3 have been obtained, yielding H-1-H-1, C-13-H-1, and C-13-C-13 spin coupling constants that were used to assess furanose ring and glycoside bond conformations in aqueous ((H2O)-H-2) solution. Results show that the conformational mobility of the furanosyl ring in 3 is altered when incorporated into 1. Furthermore, C-13-C-13 and C-13-H-1 spin couplings across the glycosidic linkage suggest a psi torsion angle different from that observed in the crystal (phi appears similar). Interplay between the strength of the exoanomeric effect and hydrogen bonding in solution may be responsible, in part, for the apparent conformational flexibility of 1. In addition, spin couplings in 2 and 3 have been compared to those measured previously in alpha-D-threo-pentulofuranose (4) and beta-D-threo-pentulofuranose (5), respectively, as a means to study the effect of glycosidation and hydroxymethyl substitution on the solution conformation of the 2-ketofuranose ring. The conversion of 4 to 2 is accompanied by minimal conformational change, whereas a significant change accompanies the conversion of 5 to 3, showing that the effect of substitution on ring conformation depends highly on ring configuration before and after substitution.