Molecular Alterations of Bovine Serum Albumin Induced by the Food Dye Acid Yellow 23: A Mechanistic Study

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Molecular Alterations of Bovine Serum Albumin Induced by the Food Dye Acid Yellow 23: A Mechanistic Study

Authors

Dahiya, P.; Verma, A.; Mevada, V.; Kumar, S.; Verma, N.

Abstract

The widespread use of synthetic food dyes, such as Acid Yellow 23 (AY 23), in the food, cosmetics, and pharmaceutical industries raises questions about their potential effects on biological systems and public health. The concentration-dependent interaction between AY 23 and bovine serum albumin (BSA), a crucial model protein for understanding pharmacokinetics and protein-ligand behaviour, was examined in this study. We demonstrate that, under physiological conditions, increasing dye concentrations from 50 M to 200 M results in notable conformational changes, increased surface hydrophobicity, and protein aggregation using a multimodal biophysical approach that includes fluorescence spectroscopy. Direct visualisation verified these structural changes and aggregate formation, whereas hemolytic assay confirmed the high hemolytic nature of AY 23-induced fibrils. Additionally, this study provides a mechanistic basis for the toxicological effects of AY 23, underscoring the implications of food dyes for public health.

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