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Insights into the structure, physical properties and degradation characteristics of sesame leaf protein-based bionanocomposite packaging films: Focus on the regulatory effects of corn starch and potato starch

Ruoran Qin, Longwei Jiang, Yanyan Wang, Jiayi Xue, Tiantian Liu

2025Food Chemistry6 citationsDOIOpen Access PDF

Abstract

Sesame leaves, often discarded as agricultural byproducts, are a nutrient-dense yet underutilized protein source (∼32 % protein), offering potential for sustainable food packaging. This study successfully extracted sesame leaf protein (SLP) and cellulose nanocrystals (CNC) from sesame leaves to fabricate nanocomposite films with corn/potato starch (CS/PS). The film-forming liquid showed decreased but stable zeta potential (>26 mV) after starch addition. Fluorescence attenuation was observed in the film-forming solution, as with increasing starch content, a more compact tertiary conformation formed in the film-forming solution, which shielded the tryptophan residues in the SLP. The increase in starch content effectively promoted the conversion from α-helix to β-sheet structure, while simultaneously enhancing intermolecular hydrogen bonding and significantly improving film crystallinity. SLP/CNC/CS exhibited superior mechanical strength, UV-blocking and barrier properties. SLP/CNC/CS and SLP/CNC/PS demonstrated excellent biodegradability and enhanced soil bacterial diversity. Furthermore, the developed film effectively extended the shelf life of blueberries.

Topics & Concepts

StarchChemistryFood scienceBiodegradationAmyloseZeta potentialCellulosePotato starchDegradation (telecommunications)PolysaccharideChemical engineeringWater contentMaize starchNanocompositeAgronomyBotanyMonosaccharideHydrolysisPlant proteinHydrogen bondMoistureSulfuric acidBiomass (ecology)Nanocomposite Films for Food PackagingAdvanced Cellulose Research StudiesFood composition and properties