支链淀粉
回生(淀粉)
直链淀粉
淀粉
差示扫描量热法
化学
食品科学
结晶度
抗性淀粉
淀粉糊化
小麦淀粉
结晶学
热力学
物理
作者
Katsuyuki Hayakawa,Keiko Tanaka,Toshiki Nakamura,Shigeru Endo,Tsuguhiro Hoshino
标识
DOI:10.1094/cchem.1997.74.5.576
摘要
ABSTRACT The viscoelastic properties and molecular structure of the starch isolated from waxy (amylose‐free) hexaploid wheat (WHW) ( Triticum aestivum L.) were examined. WHW starch generally had lower gelatinization onset temperature, peak viscosity, and setback than the starch isolated from normal hexaploid wheat (NHW). Differential scanning calorimetry (DSC) showed that WHW starch had higher transition temperatures ( T o , T p , and T c ) and enthalpy (Δ H ) than NHW starch. However, when compared on the basis of amylopectin (AP) content, Δ H of WHW starch was almost statistically identical to that of its parental varieties. Typical A‐type X‐ray diffraction patterns were observed for the starches of WHW and its parental varieties. Somewhat higher crystallinity was indicated for WHW starch. WHW starch was also characterized by having greater retrogradation resistance. The high‐performance size‐exclusion chromatography (HPSEC) of amylopectin showed that each amylopectin yielded two fractions after debranching. Although WHW amylopectin had somewhat long B chains, little difference was observed in the ratio of Fr.III/ Fr.II between WHW and its parental varieties.
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