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  • Hydration properties and phosphorous speciation in native, gelatinized and enzymatically modified potato starch analyzed by solid-state MAS NMR.

Hydration properties and phosphorous speciation in native, gelatinized and enzymatically modified potato starch analyzed by solid-state MAS NMR.

Carbohydrate polymers (2013-08-06)
Flemming H Larsen, Mirosław M Kasprzak, Helle N Lærke, Knud Erik B Knudsen, Sven Pedersen, Anne S Jørgensen, Andreas Blennow
ABSTRACT

Hydration of granular, gelatinized and molecularly modified states of potato starch in terms of molecular mobility were analyzed by (13)C and (31)P solid-state MAS NMR. Gelatinization (GEL) tremendously reduced the immobile fraction compared to native (NA) starch granules. This effect was enhanced by enzyme-assisted catalytic branching with branching enzyme (BE) or combined BE and β-amylase (BB) catalyzed exo-hydrolysis. Carbons of the glycosidic α-1,6 linkages required high hydration rates before adopting uniform chemical shifts indicating solid-state disorder and poor water accessibility. Comparative analysis of wheat and waxy maize starches demonstrated that starches were similar upon gelatinization independent of botanical origin and that the torsion angles of the glycosidic linkages were averages of the crystalline A and B type structures. In starch suspension phosphorous in immobile regions was only observed in NA starch. Moreover phosphorous was observed in a minor pH-insensitive form and as major phosphate in hydrated GEL and BE starches.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
β-Amylase from barley, Type II-B, 20-80 units/mg protein (biuret)
Sigma-Aldrich
β-Amylase from sweet potato, Type I-B, ammonium sulfate suspension, ≥750 units/mg protein (E1%/280)
Sigma-Aldrich
β-Amylase from sweet potato