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Chinese rice noodles form the viscoelastic texture by dual high-temperature retrogradation: An insight into the mechanism

Xiaoyan Yan, Jianyong Wu, Chaohui Zhao, Shunjing Luo, Lei Huang, Debin Guo, Chengmei Liu

2023LWT24 citationsDOIOpen Access PDF

Abstract

Chinese rice noodles, despite being gluten-free, yet exhibit a desirable high viscoelastic texture. The viscoelasticity is primarily attributed to the dual high-temperature retrogradation (HR2) process, but the underlying mechanism remained unclear. To clarify this mechanism, the relationship between the texture-related qualities (cooking, textural, and digestive properties) of noodles and the muti-scale structural changes of starch during the HR2 process were examined. The results revealed that the micromechanical homogeneity and short-range order of the rice noodles was notably increased after HR2, accompanied by the formation of numerous A- and V-type crystals, leading to a relative crystallinity of up to 19.62%. The presence of a high number of A-type crystals caused the rice noodles to form a high-viscosity paste upon cooking. After cooking, the residual heat-resistant V-type crystals acted as “primary nuclei” for molecular rearrangement, thereby strengthening the gel network structure and resulting in a high viscoelastic texture. As a result of the gel network with exceptional viscoelasticity, the hardness and chewiness of HR2 noodles increased significantly, while the cooking loss and digestibility were remarkably reduced.

Topics & Concepts

ChewinessViscoelasticityRetrogradation (starch)Food scienceStarchRheologyMaterials scienceCrystallinityTexture (cosmology)ChemistryRice flourComposite materialComputer scienceArtificial intelligenceAmyloseImage (mathematics)Raw materialOrganic chemistryFood composition and propertiesPolysaccharides Composition and ApplicationsProteins in Food Systems
Chinese rice noodles form the viscoelastic texture by dual high-temperature retrogradation: An insight into the mechanism | Litcius