作者
Sushil Dhital, Vito M Butardo Jr, Stephen A Jobling, Michael J Gidley
发表日期
2015/1/22
期刊
Carbohydrate Polymers
卷号
115
页码范围
305-316
出版商
Elsevier
简介
The underlying mechanism of amylolysis of rice starch granules was investigated using isolated starch granules from wild-type, as well as SBEIIb mutant and down-regulated lines. Fused granule agglomerates isolated from mutant and transgenic lines were hydrolysed at similar rates by amylases, and had similar crystalline patterns and thermal properties as individual granules. Surface pores, a feature previously only reported for A-polymorphic starch granules, were also observed in B- and C-polymorphic rice starch granules. Although the microscopic patterns of hydrolysis among granules with different crystalline polymorphs were qualitatively similar, the extent and the rate of amylolysis were different, suggesting that B-type crystalline polymorphs are intrinsically more resistant to enzymatic hydrolysis than A-type in rice starch granules. It is proposed that the slightly longer branch lengths of amylopectin which …
学术搜索中的文章
S Dhital, VM Butardo Jr, SA Jobling, MJ Gidley - Carbohydrate Polymers, 2015