ATP is the universal energy molecule found in animals, plants, and microorganisms. ATP rapid hygiene monitoring tests have been employed in the food industry to ensure that adequate cleanliness is being maintained. However, because ATP is hydrolyzed to ADP and AMP by metabolic processes, by heat treatment, or under acidic or alkaline conditions, total adenylate (ATP+ADP+AMP [A3]) could be a more reliable sanitation indicator of food residues that may cause biofilm formation and allergen contamination. Therefore, a novel hygiene monitoring system to measure A3 was developed based on the luciferin-luciferase assay with the combination of two enzymes, pyruvate kinase and pyruvate phosphate dikinase, that can convert ADP into ATP and recycle AMP into ATP, respectively. The newly developed A3 assay system afforded stable bioluminescence signals and equivalent linear calibration curves between relative light units (RLU) and the amounts of ATP, ADP, and AMP, respectively. To verify the significance of the A3 method, the ratios of ATP, ADP, and AMP in various food samples were determined; large amounts of ADP and AMP were found in a variety of foods, such as meat, seafood, dairy, nuts, fruits, vegetables, and fermented foods. Sanitation monitoring of stainless steel exposed to raw meat was also examined, and the A3 method achieved a 200-RLU level, the typical benchmark value, after complete washing with detergent and rinsing. In contrast, a conventional ATP method showed less than 200 RLU after only a light cold and hot water rinse. In conclusion, the A3 assay appeared to be suitable for detection of adenylates from food residues that are not detected by the conventional ATP assay.
A highly regioselective (3-position) and efficient (quantitative yield) acylation of bile acids catalyzed by immobilized Candida antarctica lipase was established. Methyl cholate derivatives acylated with long-chain fatty acids (C12-C16) showed an inhibitory effect on the growth of some strains of Gram-positive and -negative bacteria (27-400 micrograms/ml). The anti-bacterial activity was slightly weaker than has been observed for methyl cholate, while the increased lipophilicity and lower melting points of the present derivatives are well suited for a potential germicide which would be safe and be topically applied. This enzyme-catalyzed transesterification is also demonstrated as an expeditious route to ursodeoxycholic acid, in respect of the regioselective introduction of acyl protecting groups on the hydroxyl groups of the intermediates. 7-Ketolithocholic acid, a known direct precursor of ursodeoxycholic acid, was obtained from cholic acid via chenodeoxycholic acid in a 46% yield and 9 steps.
Our fungal culture collection was screened for fructosyl peptide oxidase, an enzyme that could be used for the determination of glycated hemoglobin in diabetic subjects with hyperglycemia. Fructosyl peptide oxidases were found in strains of eight genera: Achaetomiella, Achaetomium, Chaetomium, Coniochaeta, Eupenicillium, Gelasinospora, Microascus and Thielavia. By their substrate specificity toward N(alpha)-fructosyl valyl-histidine (alpha-keto-amine) and N(epsilon)-fructosyl lysine (epsilon-keto-amine), fructosyl peptide oxidases could be categorized into two groups: (1) enzymes that oxidize both alpha-keto-amine and epsilon-keto-amine, and (2) enzymes that preferably oxidize alpha-keto-amine. A fructosyl peptide oxidase from Achaetomiella virescens ATCC 32393, active toward both N(alpha)-fructosyl valyl-histidine and N(epsilon)-fructosyl lysine, was purified to homogeneity and characterized. The enzyme was monomeric ( M(r)=50,000), was most active at 40 degrees C and pH 8.0, and had a covalently bound flavin as a prosthetic group. Apparent K(m) values for N(alpha)-fructosyl valyl-histidine and N(epsilon)-fructosyl lysine were 2.30 and 1.69 mM, respectively. N(alpha)-fructosyl valyl-histidine was consumed and the same molar amount of valyl-histidine was produced by the fructosyl peptide oxidase reaction. This enzyme could be useful for the measurement of hemoglobin A(1C), the N-terminal valine residue of the beta-subunit of which is glycated.
Since prescribed limits for histamine in fish have been set by various regulatory bodies around the world, the rapid, specific and easy determination of histamine is in high demand. The enzymatic histamine assay developed by Kikkoman Biochemifa Co. was validated. Fresh and frozen raw tuna, canned tuna in oil and water, and anchovy fish sauce were used for the validation study under the specific guidelines of the AOAC Research Institute (PTM) program. Good linearity (R² > 0.9997) for histamine standard solutions, recovery rates (90.3-125.2%), and repeatability precisions (RSD < 10%) were shown for all spiked tested matrixes. The claimed LOQ values, 20 and 10 mg/kg for solid fish and 160 and 80 mg/kg for fish sauce using a 1 and 2 cm optical path length spectrophotometer, respectively, were validated. The cross-reactivity test showed no positive interference of other biogenic amines, except for agmatine and putrescine. Moreover, no inhibition was confirmed among the 12 biogenic amines. Stability data supported the shelf life (42 months at 4°C), lot-to-lot consistency was demonstrated, and the method was shown to be robust. Independent laboratory testing using canned tuna in oil demonstrated that the recovery ranged from 93.5 to 124.7%, and the RSD at all spike levels was <20%. The simple and rapid enzymatic histamine assay method has been successfully validated. This histamine quantitative assay kit was qualified for PTM certification No. 041802.
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