Production of a low calorie mandarin juice by enzymatic conversion of constituent sugars to oligosaccharides and prevention of insoluble glucan formation.

Over 99% of sucrose in mandarin juice (57.1 g/l in original juice to 428.4 g/l in concentrated juice) was enzymatically converted to glucooligosaccharides using 3 U dextransucrase/ml prepared from Leuconostoc mesenteroides at 28 °C. The oligosaccharide synthesis yields were 51 and 47% for the original and the concentrated mandarin juice, respectively. The degree of polymerization of oligosaccharides in the enzyme-modified juice was 2-7. Calories in the original and modified mandarin juice were 433 and 301 kcal/l (30.5% reduction). Compared with the original juice, the enzyme-modified juice showed 82% decrease of insoluble glucan formation by mutansucrase from Streptococcus mutans. A sensory evaluation of the juices revealed that the original and modified mandarin juices had sweetness values of 4.5 and 4.9 and the same values for overall acceptability.

Enzymatic synthesis and characterization of hydroquinone galactoside using Kluyveromyces lactis lactase.

Hydroquinone galactoside (HQ-Gal) as a potential skin whitening agent was synthesized by the reaction of lactase (beta-galactosidase) from Kluyveromyces lactis, Aspergillus oryzae, Bacillus circulans, and Thermus sp. with lactose as a donor and HQ as an acceptor. Among these lactases, the acceptor reaction involving HQ and lactose with K. lactis lactase showed a higher conversion ratio to HQ-Gal (60.27%). HQ-Gal was purified using butanol partitioning and silica gel column chromatography. The structure of the purified HQ-Gal was determined by nuclear magnetic resonance, and the ionic product was observed at m/z 295 (C12H16O7Na)+ using matrix assisted laser desorption ionization time-of-flight mass spectrometry. HQ-Gal was identified as 4-hydroxyphenyl-beta-d-galactopyranoside. The optimum conditions for HQ-Gal synthesis by K. lactis determined using response surface methodology were 50 mM HQ, 60 mM lactose, and 20 U mL(-1) lactase. These conditions produced a yield of 2.01 g L(-1) HQ-Gal. The half maximal inhibitory concentration (IC50) of diphenylpicrylhydrazyl scavenging activity was 3.31 mM, indicating a similar antioxidant activity compared to beta-arbutin (IC50=3.95 mM). The Ki value of HQ-Gal (0.75 mM) against tyrosinase was smaller than that of beta-arbutin (Ki=1.97 mM), indicating its superiority as an inhibitor. HQ-Gal inhibited (23%) melanin synthesis without being significantly toxic to the cells, while beta-arbutin exhibited only 8% reduction of melanin synthesis in B16 melanoma cells compared with the control. These results indicate that HQ-Gal may be a suitable functional component in the cosmetics industry.