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Structural and physicochemical characterisation of rye starch |
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| Authors: | Gomand S V Verwimp T Goesaert H Delcour J A |
| Institution: | Laboratory of Food Chemistry and Biochemistry, Leuven Food Science and Nutrition Research Centre (LFoRCe), Katholieke Universiteit Leuven, Kasteelpark Arenberg 20, B-3001 Leuven, Belgium |
| Abstract: | The gelatinisation, pasting and retrogradation properties of three rye starches isolated using a proteinase-based procedure were investigated and compared to those of wheat starch isolated in a comparable way. On an average, the rye starch granules were larger than those of wheat starch. The former had very comparable gelatinisation temperatures and enthalpies, but slightly lower gelatinisation temperatures than wheat starch. Under standardised conditions, they retrograded to a lesser extent than wheat starch. The lower gelatinisation temperatures and tendencies of the rye starches to retrograde originated probably from their higher levels of short amylopectin (AP) chains degree of polymerisation (DP) 6–12] and their lower levels of longer chains (DP 13–24) than observed for wheat starch. The rapid visco analysis differences in peak and end viscosities between the rye starches as well as between rye and wheat starches were at least partly attributable to differences in the levels of AP short chains and in average amylose molecular weight. The AP average chain lengths and exterior chain lengths were slightly lower for rye starches, while the interior chain lengths were slightly higher than those for wheat starch. |
| Keywords: | Abbreviations: AP amylopectin AM amylose CL average chain length BV blue value Tc conclusion temperature Tc retro conclusion temperature of retrograded amylopectin DP degree of polymerisation dm dry matter DSC differential scanning calorimetry ΔHretro enthalpy of retrograded amylopectin ECL exterior chain length HPAEC high-performance anion-exchange chromatography HPSEC high-performance size-exclusion chromatography ΔH gelatinisation enthalpy ICL interior chain length IM intermediate material λmax iodine binding wavelength maximum BL long B chain residues ΔHaml melting enthalpy amylose&ndash lipid complexes MW molecular weight To onset temperature To retro onset temperature of retrograded amylopectin Tp peak temperature Tp retro peak temperature of retrograded amylopectin PAD pulsed amperometric detection rt room temperature RVA Rapid Visco Analyser BS short B chain residues SEC size-exclusion chromatography WAXD wide angle X-ray diffraction |
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