Litcius/Paper detail

Unveiling the retrogradation mechanism of a novel high amylose content starch-Pouteria campechiana seed

Wanru Luo, Bo Li, Yanjun Zhang, Lehe Tan, Chi‐Chang Hu, Chongxing Huang, Zhanpeng Chen, Lijie Huang

2023Food Chemistry X20 citationsDOIOpen Access PDF

Abstract

seed starch (PCSS) was investigated. The results showed that crystal type was changed from A- to B + V-type during retrogradation. The retrogradation PCSS (RPCSS) exhibited faster retrogradation rate and more compact internal ultra-structure compared to rice, wheat and maize starch. Pearson correlation indicated that, as retrogradation days increased, values of α-1,4-glycosidic bond, A chains, double helix, V-type polymorphism, Mw, relative crystallinity (Rc) and short-range order gradually significantly increased, and B1 chains, B3 + chains values gradually significantly dropped (p < 0.05). These inferred an increasing peak temperature and compactness of morphology with increasing retrogradation days. Compared to native starch, RPCSS α-1.4-glycosidic bond was increased, which indicated that its quick molecules degradation including decreased Mw, B3 + chains, Rc, semicrystalline order, and ΔH. These might provide a theoretical direction for preparation of starch-basis food.

Topics & Concepts

Retrogradation (starch)StarchCrystallinityAmyloseGlycosidic bondChemistryFood scienceResistant starchCrystallographyMaterials scienceBiochemistryEnzymeFood composition and propertiesMicrobial Metabolites in Food BiotechnologyPolysaccharides Composition and Applications