Production of tagatose by a recombinant thermostable L-arabinose isomerase from Thermus sp. IM6501.

A gene (thaI) corresponding to L-arabinose isomerase from Thermus strain IM6501 was cloned by PCR. It comprised 1488 nucleotides and encoded a polypeptide of 496 residues with a predicted molecular weight of 56019 Da. The deduced amino acid sequence had 96.8% identity with the L-arabinose isomerase of Geobacillus stearothermophilus. Recombinant ThaI with N-terminal hexa-tistidine tags was over-expressed in Escherichia coli and purified by affinity chromatography using Ni-NTA resin. The purified ThaI was thermostable with maximal activity at 60 degrees C at pH 8 for 30 min of reaction. Zn2+ and Ni2+ inactivated the catalytic activity of ThaI, 5 mM Mn2+ enhanced the bioconversion yield by 90%. The bioconversion yield of 54% from D-galactose to D-tagatose was obtained by recombinant ThaI at 60 degrees C over 3 d.

Modification of ascorbic acid using transglycosylation activity of Bacillus stearothermophilus maltogenic amylase to enhance its oxidative stability.

Ascorbic acid (1), a natural antioxidant, was modified by employing transglycosylation activity of Bacillus stearothermophilus maltogenic amylase with maltotriose and acarbose as donor molecules to enhance its oxidative stability. The transglycosylation reaction with maltotriose as donor created mono- and di-glycosyl transfer products with an alpha-(1,6)-glycosidic linkage. In addition, two acarviosine-glucosyl transfer products were generated when transglycosylation was performed with acarbose as a donor. All transfer products were observed by TLC and HPLC, and purified by Q-sepharose anion exchange and Biogel P-2 gel permeation chromatographies. LC/MS and (13)C NMR analyses revealed that the structures of the transfer products were 6-O-alpha-D-glucosyl- (2) and 6-O-alpha-D-maltosyl-ascorbic acids (3) in the reaction of maltotriose, and 6-O-alpha-acarviosine-D-glucosyl- (4) and 2-O-alpha-acarviosine-D-glucosyl ascorbic acids (5) in the reaction of acarbose. The stability of the transglycosylated ascorbic acid derivatives was greatly enhanced against oxidation by Cu(2+) ion and ascorbate oxidase. Among them, compound 3 proved to be the most stable against in vitro oxidation. The antioxidant effects of glycosyl-derivatives of ascorbic acid on the lipid oxidation in cooked chicken breast meat patties indicated that they had antioxidant activities similar to that of ascorbic acid. It is suggested that the transglycosylated ascorbic acids can possibly be applied as effective antioxidants with improved stability in food, cosmetic, and other applications.