Key Laboratories of Crop Genetics and Physiology of the Jiangsu Province, Plant Functional Genomics of the Ministry of Education, Yangzhou University, Yangzhou 225009, China.
Food Chem. 2014 Feb 15;145:245-53. doi: 10.1016/j.foodchem.2013.08.059. Epub 2013 Aug 27.
Native starches were isolated from mature grains of high-amylose transgenic rice TRS and its wild-type rice TQ and treated with 0.1% and 0.4% NaOH for 7 and 14 days at 35 °C. Alkali-treated starches were characterised for structural and functional properties using various physical methods. The 0.1% NaOH treatment had no significant effect on structural and functional properties of starches except that it markedly increased the hydrolysis of starch by amylolytic enzymes. The 0.4% NaOH treatment resulted in some changes in structural and functional properties of starches. The alkali treatment affected granule morphology and decreased the electron density between crystalline and amorphous lamellae of starch. The effect of alkali on the crystalline structure including long- and short-range ordered structure was not pronounced. Compared with control starch, alkali-treated TRS starches had lower amylose content, higher onset and peak gelatinisation temperatures, and faster hydrolysis of starch by HCl and amylolytic enzymes.
天然淀粉分别从高直链淀粉转基因水稻 TRS 及其野生型水稻 TQ 的成熟种子中分离得到,用 0.1%和 0.4%的 NaOH 在 35°C 下处理 7 天和 14 天。用各种物理方法对碱处理的淀粉的结构和功能特性进行了表征。0.1%NaOH 处理除了明显增加了淀粉水解酶对淀粉的水解作用外,对淀粉的结构和功能特性没有显著影响。0.4%NaOH 处理导致淀粉的结构和功能特性发生了一些变化。碱处理影响颗粒形态,并降低淀粉结晶和无定形层之间的电子密度。碱对包括长程和短程有序结构在内的结晶结构的影响并不显著。与对照淀粉相比,碱处理的 TRS 淀粉的直链淀粉含量较低,起始和峰值糊化温度较高,HCl 和淀粉水解酶对淀粉的水解速度较快。