Effects of carbohydrate-structure changes on induced shifts in differential isotope-shift 13C-N.M.R.

Deuterium-induced, ¹³C-isotope shifts are shown to vary considerably from the initially predicted values calculated for ordinary pyranose and furanose sugars, when minor structural changes are introduced into the carbohydrate ring. Both substitution of C-OH groups or reduction of C-OH to CH₂ permitted the evaluation of γ effects of OD without the contribution of β-OD-induced shifting. The observed γ-shift values for these modified structures were twice as large as those previously noted. This difference is most probably due to favored salvation. Substitution of OH at C-6 led to the predicted loss of differential isotope-shift (d.i.s.) at C-6 because of its isolation from all β and γ OD groups. The ³¹P resonances of d-glucose 6-phosphate show downfield deuterium shifts. Based on d.i.s. values, new ¹³C-shift assignments are proposed for isomaltose and 2-amino-2-deoxy-α-d-glucose. A study of acidic carbohydrates has demonstrated that isotope shifts are somewhat larger for sp²-hybridized carbon atoms whose OH groups are acidic. Relaxation times for sp² carbon atoms isolated from dipolar interaction with protons were very long in D₂O relative to their relaxation time in the H₂O environment.