Purification and characteristics of creatininase from Arthrobacter sp / 生物工程学报

A creatininase produced from a Arthrobacter sp. was purified 145-fold by a series of steps including heat treatment, ammonium sulfate precipitation, DEAE-Cellulose ion-exchange and hydrophobic chromatography. The specific activity of the pure enzyme was 209u/mg. The subunit molecular mass of creatininase was estimated to be 33 700D by SDS-PAGE. The creatininase was stable in the pH range between 6.0 - 9.0 and below 60 degrees C . Its Km value for creatinine was estimated to be 21.14 mmol/L. The enzyme was markedly inactivated by incubation with 1 mmol/L of Hg2+, Ag2+, Li+, Cu2+ and 20 mmol/L of 1, 11-Phananthroline respectively. Activation was observed when the enzyme was incubated with 1 mmol/L of Co2+ and Mn2+.

Study on the properties of a novel glycine amino peptidase from Actinomucor elegans / 生物工程学报

The glycine amino peptidase of Actinomucor elegans was studied in this work. For the enzyme production Actinomucor elegans was cultured with an enzyme producing medium. Then the cells were collected and subjected to enzyme purification. The glycine aminopeptidase was purified 592 times by a DEAE-Toyopearl column, a Toyopearl HW 65-C column and a Superdex 200 column subsequently and the purified enzyme had a specific activity of 14.2 u/mg. The enzyme was estimated to have molecular mass of 320kD by gel filtration and a subunit size of 56.5kD by SDS-PAGE. It hydrolyzes glycine residue containing substrates such as glycine-betanaphthylamine more efficiently than those containing other amino acid residue. Addition to Gly-betaNA, the enzyme could also hydrolyze Ala-betaNA, Met-betaNA, Leu-betaNA, Arg-betaNA and Ser-betaNA but it had no activity on the substrates such as Trp-betaNA, Pyr-betaNA, Pro-betaNA, Asp-betaNA, Lys-betaNA, Val-betaNA. It was also observed when the glycine-betanaphthylamine concentration was higher than 2mmol/L the enzyme showed a substrate inhibition, and at the 20 mmol/L the enzyme only showed about 55% activity as it showed at the 2mmol/L. Whereas no such phenomenon was observed on the other substrate such as alanine-betanaphthylamine. The optimal temperature and pH for the reaction of this enzyme is 30 degrees C and pH 8.0, respectively. The Km and Kcat of the enzyme for glycine-betanaphthylamine is 0.24 mmol/L and 100.8 s(-1), respectively. Zn2+, Cu2+ and Cd2+ suppress almost all activities of the enzyme at the concentration of 1.0 mmol/L. Based on the study of chelating reagents, GAP belongs to the metalloenzyme. When a gelatin solution was hydrolyzed with 0.5% of alkaline proteinase together with glycine aminopeptidase at 50 degrees C for 18 hours, the glycine aminopeptidase could improve the hydrolysis degree of the protease. The total free amino acid was improved about 13% and although the enzyme mainly had the activity to hydrolyze the glycine residue, individual amino acids analysis with an amino acid analyzer showed that the contents of glycine, proline, alanine, arginine and glutamate were considerably increased. The results of this study showed that the glycine aminopeptidase would be useful in the food industry.