Litcius/Paper detail

Expression and Characterization of L-Arabinose Isomerase and Its Enzymatic Recycling of the Expired Milk

Chen Zhou, Yuhan Yan, Ziang Wu, Yanyin Song, Jiangqi Xu

2025Foods11 citationsDOIOpen Access PDF

Abstract

As global milk production continues to rise, the disposal of expired milk contributes to environmental pollution and valuable resource wastage. This study presents the development of a novel L-arabinose isomerase, designated BmAIase12, and its application in the enzymatic recycling of expired milk. BmAIase12 exhibited a specific activity of 10.7 U/mg and showed optimal performance at 50 °C and pH 7.0. Furthermore, it exhibited higher activity than most other L-arabinose isomerases. It converted D-galactose into D-tagatose with a high conversion ratio of 53.3% after 48 h at 50 °C. The conversion efficiency of expired milk to D-tagatose was recorded at 40.62%, resulting in a maximum tagatose yield of 1.625 g/L. This was accomplished through the incorporation of β-galactosidase (120 U/mL) and Saccharomyces cerevisiae (30 mg/mL) to hydrolyze lactose and metabolize glucose, followed by the addition of 3 U/mL of BmAIase12. Ultimately, following purification, the purity of tagatose was determined to be 98%, and the final yield was 29.8%. These results suggest that BmAIase12 may serve as a promising enzyme for D-tagatose production due to its high conversion yield.

Topics & Concepts

LactoseChemistryArabinoseIsomeraseYield (engineering)Food scienceEnzymeGalactoseBiochemistryHydrolysisFermentationXyloseMaterials scienceMetallurgyDiet, Metabolism, and Disease