Model of granular starch acetylation and the acetyl substitution pattern of the amylose population
Acetylated potato and sweet potato starches were fractionated according to granule size. From the fractions obtained amylose and amylopectin were isolated and characterized with respect to degree of substitution (DS) and degradability with α-amylase, β-amylase and amyloglucosidase. The DS of the amylose populations of differently sized granule fractions was quite constant. In contrast, the DS of the amylopectin populations originating from the differently sized fractions increased with ecreasing granule size. The acetylation was confirmed to occur throughout the amorphous regions, and only take place in the outer lamellae of crystalline regions of starch granules. The model of granular starch acetylation was proposed. The amylose populations isolated from small size granule fractions of the acetylated starches tested were less susceptible to all the enzyme digestions than the amylose originating from the large granule fractions, even though the DS was similar. The acetyl populations groups over the amyiose molecules are more heterogeneously distributed and located more closely to the non-reducing ends for amylose originating from small size granule fractions when compared to amylose from lager sized granules.
acetyl group degree of substitution amylose granule size
Zhenghong Chen Henk.A.Schols Alphons G.J.Voragen
AVEBE R&D (APR),Singapore the Laboratory of Food Chemistry. Department of Agrotechnology & Food Sciences,Wageningen University
国内会议
中国食品添加剂协会第三届会员代表大会暨第九届中国国际食品添加剂和配料展览会
上海
英文
118-128
2005-03-17(万方平台首次上网日期,不代表论文的发表时间)