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Granular architecture of lotus seed starch and its impact on physicochemical properties

Chuanjie Chen, Guantian Li, Yacine Hémar, Harold Corke, Fan Zhu

2023Food Research International10 citationsDOIOpen Access PDF

Abstract

Lotus seed starch has high apparent amylose content (AAM). A representative definition of its granular architecture (e.g., lamellar structure) remained absent. This study defined the granular shape, crystalline and lamellar structures, and digestibility of twenty-two samples of lotus seed starch (LS) by comparing with those of potato and maize starches. LS granules had more elongated shape and longer repeat distance of lamellae than potato and maize starch granules. The enzymatic susceptibility of LS granules was more affected by AAM than granular architecture. Using these LSs as a model system, the relationships between lamellar structure of starch granules and properties of their gelatinized counterparts were investigated. In LSs, thinner amorphous lamella and thicker crystalline lamella were associated with higher swelling power and yield stress. The relationships were found to be connected via certain structural characteristics of amylopectin.

Topics & Concepts

AmylopectinLamellar structureStarchAmyloseLamella (surface anatomy)LotusChemistrySwellingMaterials scienceBotanyChemical engineeringComposite materialFood scienceBiologyEngineeringFood composition and propertiesPolysaccharides Composition and ApplicationsMicrobial Metabolites in Food Biotechnology
Granular architecture of lotus seed starch and its impact on physicochemical properties | Litcius