Abstract
α-Arbutin is a glycosylated hydroquinone (HQ) which has inhibitory function against tyrosinase. The aim of present study is to develop an efficient and inexpensive method for the production of α-arbutin by using Xanthomonas maltophilia BT-112 as a biocatalyst. HQ, substrate for the bioconversion as glucosyl acceptor, was immobilized on different macroporous resins to reduce its toxic effect on the cells, and the optimal reaction conditions for α-arbutin synthesis were investigated. The research results indicated that H107 resin offered the best adsorption capacity for HQ than other resins. When immobilized hydroquinone (IMHQ) was applied, the maximal HQ tolerance of cells and yield of α-arbutin were 254mM and 64.7gL⁻¹ respectively. The α-arbutin productivity (0.90gL⁻¹h⁻¹) was 526% higher than that of the control (free HQ) in 72h reaction and the fermentation broth maintained its full activity for almost three consecutive batch reactions. Additionally, the product was one-step isolated and identified as α-arbutin by ¹³C NMR and ¹H NMR analysis. In conclusion, the results in this work provide a cost-effective method for the production of α-arbutin.