Liu H, Corke H, Ramsden L
Cereal Science Laboratory, Department of Botany, The University of Hong Kong, Pokfulam Road, Hong Kong.
J Agric Food Chem. 1999 Jul;47(7):2523-8. doi: 10.1021/jf9811471.
The functional properties and enzymatic digestibility of cationic and cross-linked cationic ae, wx, and normal maize starches were studied. Cationization reduced the endothermic transition temperatures (T(o), T(p), and T(c)), however, it increased peak viscosity, swelling power, solubility, clarity, and digestibility of all the starches compared to the corresponding native starch. After cationization, the enthalpy of waxy and normal starches was little changed but ae starch showed a decrease. For gel texture, cationization increased the hardness, adhesiveness, and springiness of all the starches, except for the hardness and adhesiveness of normal starch which showed a decrease, and the springiness of waxy starch did not show much change compared to the corresponding control starch. Cross-linking of cationic starch increased the endothermic transition temperatures, as well as peak viscosity. However, it reduced the swelling power and solubility, clarity, and enzymatic digestibility of all the cationic starches.
研究了阳离子和交联阳离子ae、wx及普通玉米淀粉的功能特性和酶消化率。阳离子化降低了吸热转变温度(T(o)、T(p)和T(c)),然而,与相应的天然淀粉相比,它提高了所有淀粉的峰值粘度、膨胀力、溶解度、透明度和消化率。阳离子化后,蜡质淀粉和普通淀粉的焓变化不大,但ae淀粉的焓有所降低。对于凝胶质地,阳离子化提高了所有淀粉的硬度、粘附性和弹性,除了普通淀粉的硬度和粘附性有所降低,蜡质淀粉的弹性与相应的对照淀粉相比变化不大。阳离子淀粉的交联提高了吸热转变温度以及峰值粘度。然而,它降低了所有阳离子淀粉的膨胀力、溶解度、透明度和酶消化率。