Selective transformation of crocin-1 to crocetin-glucosyl esters by β-glucosidase (Lf18920) from Leifsonia sp. ZF2019: Insights from molecular docking and point mutations.

Crocetin di/mono-glucosyl esters (crocin-4 and crocin-5) are rarely distributed in nature, limiting their potential applications in the food and pharmaceutical industries. In the present study, a novel GH3 family β-glucosidase Lf18920 was identified from Leifsonia sp. ZF2019, which selectively hydrolyzed crocin-1 (crocetin di-gentiobiosyl ester) to crocin-5 and crocin-4, but not to its aglycone, crocetin. Under the optimal condition of 40 °C and pH 6.0 for 120 min, Lf18920 almost completely hydrolyzed crocin-1, yielding 73.50±5.66 % crocin-4 and 16.19±1.38 % crocin-5. Molecular docking and point mutation studies revealed that Lf18920 formed a narrow binding channel that facilitated crocin-1 binding. Five single amino acid variants (D50A, D53A, W274A, G420A, and Q421A) were constructed, all of which showed reduced hydrolytic activity. Mutations at D50 and D53, located distal to the active site, increased binding energy and decreased hydrolytic activity, while mutations at W274, G420, and Q421, proximal to the active site, disrupted hydrolytic function. These findings suggest that the narrow binding channel and specific enzyme-substrate interactions are crucial for Lf18920's selective hydrolytic activity. Overall, this study is the first to report a β-glucosidase capable of selectively transforming crocin-1 to crocetin di/mono-glucosyl esters, offering potential for synthesizing crocin-4 and crocin-5.