Naringenin is a kind of flavonoid with many kinds of pharmacological activities, and is also a key intermediate metabolite in the flavonoid synthesis pathway. In this study, three α-rhamnosidases from Thermotoga petrophia DSM 13995 (TpeRha), Alternaria sp. L1 (AsRha), and Aspergillus mulundensis (AmRha), and three β-glucosidases from T. thermarum DSM 5069 T (BGLI-Tt and BGLII-Tt), and A. niger NL-1 (BGL-NL) were cloned, expressed, and characterized. The Kcat/Km value of AmRha for naringin was 2.389 smM which was 796-fold and 26-fold of TpeRha and AsRha. The Kcat/Km value of BGL-NL for prunin was 0.946 smM, which was about 4.4-fold and 4.6-fold of BGLI-Tt and BGLII-Tt. According to the catalytic efficiency, expression level, and reaction condition compatibility, AmRha was coupled with BGL-NL to construct a one-pot enzymatic cascade for preparing naringenin from naringin. The effects of the ratio and dosage of the enzyme, the naringin concentration, and reaction conditions on naringenin production were optimized. At a dosage of 200 U/L AmRha and 1000 U/L BGL-NL, a temperature of 50 °C and pH 5.0, 30 mM naringin was transformed into 29.3 mM naringenin for 24 h reaction with a corresponding molar conversion of 97.6%. Therefore, this study provides an efficient enzymatic cascade to meet the large-scale and low cost preparation of naringenin from naringin.
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