Correlation Engine 2.0
Clear Search sequence regions


  • gluten (11)
  • hydrogen bonds (1)
  • starch (12)
  • weight loss (1)
  • Sizes of these terms reflect their relevance to your search.

    This study evaluated the effects of starch with varying degree of debranching on the rheological, thermal, and structural properties of heat-induced gluten gel. As the duration of starch debranching treatment increased from 0 to 8 h, the viscoelasticity of the gel containing debranched starch (DBS) improved. Compared with the gluten gel (G), the gel strength of the G + DBS (8 h) sample increased by 65.2 %. The degradation temperature of gluten was minimally affected by DBS, while the weight loss rate increased by 4.4 %. Furthermore, the α-helical structure of gluten decreased, concomitant with an increase in β-sheet content. Notably, DBS treated for 8 h exhibited more hydrogen bonds with the tyrosine of gluten and triggered disulfide bridge conformation to transition from g-g-g to t-g-g, thereby reducing the stability of the molecular conformation of gluten proteins, as evidenced by the decreased height and width of the molecular chains observed in atomic force microscopy images. Overall, the composite gel structure induced by DBS exhibited a more continuous and homogeneous owing to the improved compatibility between DBS and gluten proteins, favoring the formation of a robust gel. These findings provide valuable insights for utilizing DBS to enhance gluten gel properties. Copyright © 2024 Elsevier B.V. All rights reserved.

    Citation

    Ke Xu, Jiwei Kuang. Rheological, thermal, and structural properties of heat-induced gluten gel: Effects of starch with varying degrees of debranching. International journal of biological macromolecules. 2024 Jun;272(Pt 1):132678

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 38801851

    View Full Text