Phenyllactic acid (PLA) is a novel antimicrobial compound derived from phenylalanine (Phe). Lactobacillus sp. SK007, having high PLA-producing ability, was isolated from Chinese traditional pickles. When 6.1 mM phenylpyruvic acid (PPA) was used to replace Phe as substrate at the same concentration, PLA production increased 14-fold and the fermentation time decreased from 72 h to 24 h with growing cells. With resting cells, however, 6.8 mM PLA could be obtained as optimal yield using the following conditions: 12 mM PPA, 55 mM glucose, pH 7.5, 35 degrees C and 4 h.
Phenyllactic acid (PLA) is a novel antimicrobial compound synthesized by lactic acid bacteria (LAB), and its production from phenylpyruvic acid (PPA) is an effective approach. In this work, a lactate dehydrogenase (LDH), which catalyzes the reduction of PPA to PLA, has been purified to homogeneity from a cell-free extract of Lactobacillus sp. SK007 by precipitation with ammonium sulfate, ion exchange, and gel filtration chromatography. The purified enzyme had a dimeric form with a molecular mass of 78 kDa (size exclusion chromatography) or 39 kDa (SDS-PAGE). The ratio of enzyme activity with PPA to that with pyruvate being almost invariable at every purification step indicated that, in Lactobacillus sp. SK007, LDH is responsible for the conversion of PPA into PLA. HPLC profiles of PPA transformation into PLA by growing cells, cell-free extract, and purified LDH of Lactobacillus sp. SK007 were also investigated. Results showed that the presence of NADH was found to be necessary for the enzymatic production of PLA from PPA. The purified LDH displayed optimal activity for PPA at pH 6.0 and 40 degrees C. The Km values of the enzyme for PPA and pyruvate were 1.69 and 0.32 mM, respectively. Moreover, because other screened LAB strains exhibiting relatively high LDH activity toward PPA produced also considerable amounts of PLA, LDH activity for PPA could be therefore used as a screening marker for PLA-producing LAB.
L-arabinose isomerase (EC5.3.1.4. AI) mediates the isomerization of D-galactose into D-tagatose as well as the conversion of L-arabinose into L-ribulose. The AI from Lactobacillus plantarum SK-2 was purified to an apparent homogeneity giving a single band on SDS-PAGE with a molecular mass of 59.6 kDa. Optimum activity was observed at 50°C and pH 7.0. The enzyme was stable at 50°C for 2 h and held between pH 4.5 and 8.5 for 1 h. AI activity was stimulated by Mn 2+ , Fe 3+ , Fe 2+ , Ca 2+ and inhibited by Cu 2+ , Ag + , Hg 2+ , Pb 2+ . D-galactose and Larabinose as substrates were isomerized with high activity. L-arabitol was the strongest competitive inhibitor of AI. The apparent Michaelis-Menten constant (K m ), for galactose, was 119 mM. The first ten N-terminal amino acids of the enzyme were determined as MLSVPDYEFW, which is identical to L. plantarum (Q88S84). Using the purified AI, 390 mg tagatose could be converted from 1,000 mg galactose in 96 h, and this production corresponds to a 39% equilibrium.
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