Litcius/Paper detail

Clustering and cross-linking of the wheat storage protein α-gliadin: A combined experimental and theoretical approach

Joel Markgren, Faiza Rasheed, Mikael S. Hedenqvist, Marie Skepö, Eva Johansson

2022International Journal of Biological Macromolecules17 citationsDOIOpen Access PDF

Abstract

Our aim was to understand mechanisms for clustering and cross-linking of gliadins, a wheat seed storage protein type, monomeric in native state, but incorporated in network while processed. The mechanisms were studied utilizing spectroscopy and high-performance liquid chromatography on a gliadin-rich fraction, in vitro produced α-gliadins, and synthetic gliadin peptides, and by coarse-grained modelling, Monte Carlo simulations and prediction algorithms. In solution, gliadins with α-helix structures (dip at 205 nm in CD) were primarily present as monomeric molecules and clusters of gliadins (peaks at 650- and 700-s on SE-HPLC). At drying, large polymers (Rg 90.3 nm by DLS) were formed and β-sheets increased (14% by FTIR). Trained algorithms predicted aggregation areas at amino acids 115–140, 150–179, and 250–268, and induction of liquid-liquid phase separation at P- and Poly-Q-sequences (Score = 1). Simulations showed that gliadins formed polymers by tail-to-tail or a hydrophobic core (Kratky plots and Ree = 35 and 60 for C- and N-terminal). Thus, the N-terminal formed clusters while the C-terminal formed aggregates by disulphide and lanthionine bonds, with favoured hydrophobic clustering of similar/exact peptide sections (synthetic peptide mixtures on SE-HPLC). Mechanisms of clustering and cross-linking of the gliadins presented here, contribute ability to tailor processing results, using these proteins.

Topics & Concepts

GliadinChemistryMonomerCluster analysisStorage proteinHigh-performance liquid chromatographyChromatographyPolymerGlutenBiochemistryOrganic chemistryGeneComputer scienceMachine learningProteins in Food SystemsPlant Micronutrient Interactions and EffectsFood composition and properties
Clustering and cross-linking of the wheat storage protein α-gliadin: A combined experimental and theoretical approach | Litcius