Solid state NMR studies on the structural and conformational properties of natural maize starches

Natural maize starches having a range of amylose contents have been characterised by 13C CP/MAS NMR spectroscopy. Chemical shifts, relative resonance intensities, line-widths and spectral shapes were compared at different moisture contents. At 10% moisture content, these parameters showed few significant differences across a range of apparent amylose levels from 0 to 84%. After hydration of the granules to ≈30% moisture, it was found that the amylose content significantly affected the relative signal intensities and line-widths especially of C-1 and C-4 resonances. Narrower line-widths after hydration were attributed to (i) an increased degree of crystallinity, and (ii) disappearance of the signals of amorphous material which, on becoming more mobile, became invisible to the CP/MAS experiment. The enhanced resolution at higher moisture levels revealed signals which were assigned to the amylose–lipid complex, i.e. V-type amylose. The amount of V-amylose detected by NMR increased with both amylose content and lipid content of the granule. Prolonged treatment of the granules with iodine vapour significantly increased the amount of V-type amylose in the high amylose samples, but caused a decrease in their degree of crystallinity. Waxy-maize starch was barely affected by iodination. The results provide evidence that amylose tends to disrupt the structural order within amylopectin crystallities. This effect is enhanced by the formation of the amylose–iodine complex, indicating that V-amylose could be a major crystallite-disrupting agent in native starch granules.