NMR local range investigations in amorphous starchy substrates I. Structural heterogeneity probed by (13)C CP-MAS NMR.

The (13)C CP-MAS (Cross Polarization and Magic Angle Spinning) NMR signatures of a series of amorphous and semi-crystalline samples prepared from various starchy substrates (native potato starch, amylopectin, amylose) following different techniques of preparation (casting, freeze drying, solvent exchange) are compared. Decompositions of the C1 resonance spectra reveal the existence of four or five main types of alpha(1-4) linkages, which can be quantified. The influence of the intrinsic primary structure (linear or branched) and of the preparation procedure on conformational changes and resulting crystallinity are interpreted in terms of distributions of average glycosidic linkages dihedral angles (Phi, Psi). The role of hydration is also considered. An improved understanding at different structural levels is obtained in relation to local and intermediate range orders. Such information may be useful for the understanding of the structural evolution of a large variety of starchy substrates before or after treatments widely used in industrial processes.