Tailormade Wheat Arabinoxylan Reveals the Role of Substitution in Regulating Gelatinization and Retrogradation Behavior of Wheat Starch.
Pei WangDandan LiCuidan HouTao YangRunqiang YangZhenxin GuDong JiangPublished in: Journal of agricultural and food chemistry (2022)
To elucidate the role of substitution of arabinoxylan (AX) in the characteristics of wheat starch, this study prepared AX with a well-defined structure by targeted enzymatic hydrolysis and comparatively investigated the effects of AX with different degrees of substitution on gelatinization and retrogradation behavior of starch. Removal of major arabinofuranosyl (Ara f ) of mono- or disubstituted xylopyranosyl (Xyl p ) of both low-molecular-weight (Mw: 62.5 kDa, Ara f /Xyl p : 0.61) and high-molecular-weight AX (Mw: 401.2 kDa, Ara f /Xyl p : 0.61) reversed the decreased gelatinization viscosity and recrystallization of amylose induced by AX to a similar extent. Upon retrogradation for 30 days, the Ara f of mono- and disubstituted Xyl p contributed to the water distribution and the effect depended on the molecular chain length. The C3-linked Ara f of disubstituted Xyl p was more involved in prohibiting the retardation of recrystallization of amylopectin, while the presence of Ara f of monosubstituted Xyl p might hinder the interactions between AX and amylopectin.