Effect of different oligomerization assemblies of γ-conglutin on its interaction behavior with vitexin
Type
Journal article
Language
English
Date issued
2024
Faculty
Wydział Nauk o Żywności i Żywieniu
PBN discipline
food and nutrition technology
Journal
Journal of the Science of Food and Agriculture
ISSN
0022-5142
Volume
104
Number
6
Pages from-to
3381-3391
Abstract (PL)
-
Abstract (EN)
BACKGROUND
Several different factors underlie the molecular mechanisms of phenolic compound-protein interactions. They include the environmental conditions. In the case of γ-conglutin, pH conditions translate directly into the adoption of two distinct oligomeric assemblies, i.e. hexameric (pH 7.5) or monomeric (pH 4.5). This paper reports research on the pH-dependent oligomerization of γ-conglutin in terms of its ability to form complexes with a model flavonoid (vitexin).
RESULTS
Fluorescence-quenching thermodynamic measurements indicate that hydrogen bonds, electrostatic forces, and van der Waals interactions are the main driving forces involved in the complex formation. The interaction turned out to be a spontaneous and exothermic process. Assessment of structural composition (secondary structure changes and arrangement/dynamics of aromatic amino acids), molecular size, and the thermal stability of the different oligomeric forms showed that γ-conglutin in a monomeric state was less affected by vitexin during the interaction.
CONCLUSION
The data show precisely how environmental conditions might influence phenolic compound-protein complex formation directly. This knowledge is essential for the preparation of food products containing γ-conglutin. The results can contribute to a better understanding of the detailed fate of this unique health-promoting lupin seed protein after its intake. © 2023 Society of Chemical Industry.
Several different factors underlie the molecular mechanisms of phenolic compound-protein interactions. They include the environmental conditions. In the case of γ-conglutin, pH conditions translate directly into the adoption of two distinct oligomeric assemblies, i.e. hexameric (pH 7.5) or monomeric (pH 4.5). This paper reports research on the pH-dependent oligomerization of γ-conglutin in terms of its ability to form complexes with a model flavonoid (vitexin).
RESULTS
Fluorescence-quenching thermodynamic measurements indicate that hydrogen bonds, electrostatic forces, and van der Waals interactions are the main driving forces involved in the complex formation. The interaction turned out to be a spontaneous and exothermic process. Assessment of structural composition (secondary structure changes and arrangement/dynamics of aromatic amino acids), molecular size, and the thermal stability of the different oligomeric forms showed that γ-conglutin in a monomeric state was less affected by vitexin during the interaction.
CONCLUSION
The data show precisely how environmental conditions might influence phenolic compound-protein complex formation directly. This knowledge is essential for the preparation of food products containing γ-conglutin. The results can contribute to a better understanding of the detailed fate of this unique health-promoting lupin seed protein after its intake. © 2023 Society of Chemical Industry.
License
Closed Access
Closed Access Project(s)
National Science Centre, Poland (Project No. 2015/19/D/NZ9/00065)