Purification and properties of creatinine iminohydrolase from Flavobacterium filamentosum.

Creatinine iminohydrolase (EC 3.5.4.21), which catalyzes hydrolysis of creatinine to N-methylhydantoin and ammonia, was purified from Flavobacterium filamentosum. The average molecular weight of the purified enzyme was 272,480, and the subunit molecular weight was 44,300. Extensive specificity studies indicated that the enzyme utilized cytosine (Km, 0.62 mM; Vm, 20.1 units/mg) as well as creatinine (Km, 5.00 mM; Vm, 40.4 units/mg) as a substrate. Each was a competitive inhibitor toward hydrolysis of the other compound. Dialysis of creatinine iminohydrolase in the presence of 0.01 M Tris phosphate buffer, pH 7.5, containing 1,10-phenanthroline decreased activity by 98%. Reactivation was accomplished by incubating the apoenzyme in the presence of certain divalent metal chlorides, listed in decreasing order of effectiveness: iron(II), zinc, cobalt(II), cadmium, and nickel. The extent of reactivation depended on the substrate and on which metal ion was added to the apoenzyme. Creatinine to cytosine activity ratios varied from 1:3.75 (iron(II) chloride), to 1:0.9 (zinc chloride), to 1:0.06 (nickel chloride). For different preparations of the holoenzyme that ratio ranged from 1:0.45 to 1:1.10. Variable but significant quantities of zinc and iron were present in all preparations of the purified enzyme.

Dry film for the enzymic determination of total cholesterol in serum.

We have prepared a dry film for the enzymic determination of total serum cholesterol. It consists of a transparent support bearing a buffered gelatin layer, and a white reflective spreading layer that contains all of the necessary components for the detection of cholesterol. The method is based on (a) hydrolysis of cholesterol esters to cholesterol by cholesterol ester hydrolase (EC 3.1.1.13), (b) oxidation of cholesterol to cholest-4-en-4-one and hydrogen peroxide by cholesterol oxidase (EC 1.1.3.6), and (c) oxidation of a triarylimidazole leuco dye with hydrogen peroxide in the presence of peroxidase (EC 1.11.1.7) to produce a dye with maximum absorption at about 650 nm. For use over a wider range of concentration, the dye density is read at 540 nm. With reflection densitometry and appropriate mathematical transformation, readings and cholesterol concentrations are linearly related to 5500 mg/L. Results correlate well with those by the Abell-Kendall comparison method (slope 0.97, intercept 92.5, correlation coefficient 0.974, Sy.x = 250.7), and the method is precise (CV of 1.2-2.3% for a control fluid and patients' samples) and relatively free of interferences.