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Kinetic and stability characterization ofChromobacterium viscosum lipase and its comparison withPseudomonas glumae lipase
Authors:M. R. Castellar  M. A. Taipa  J. M. S. Cabral
Affiliation:(1) Laboratório de Engenharía Bioquímica, Institute Superior Tecnico, 1000 Lisboa, Portugal
Abstract:A kinetic study ofChromobacterium viscosum lipase was undertaken, and compared withPseudomonas glumae lipase. Optimum operation conditions were pH 9.0 and 50°C for both enzymes. A substrate specificity study was also developed. Both enzymes showed higher activity on triglycerides with a long chain of fatty acid; the specific activity was always higher for C.viscosum lipase. Stability of both enzymes in aqueous medium at 60°C and pH 9.0 was evaluated. C.viscosum lipase was three times more stable than P.glumae lipase, with at 1/2 value of 0.75 h. In addition, the activity of C.viscosum lipase with substrate concentration was studied with a triolein emulsion. A dependence of the intrinsic characteristics of the emulsion was observed. Therefore, stability ofC. viscosum lipase B with reaction products was assayed in a micellar system. Acid products reduced the specific activity of the enzyme. Glycerol and high buffer concentration were stabilizers of enzyme deactivation. Finally, substrate specificity ofC. viscosum lipase B in a micellar system was developed with tributyrin, tricaprylin, and triolein. Only tributyrin showed an apparent Michaelis-Menten kinetic with Vmax app = 958 U/mg and Kma app = 75.5 mM. Tricaprylin and triolein showed diffusion limitations at low substrate concentration and substrate inhibition at high substrate concentration. Diffusion parameters were calculated for both these substrates. Mass transfer coefficients (k1) were 0.314 Å/min and 1.53 Å/min for tricaprylin and triolein, respectively. Effectiveness factors (η) were 0.536 and 0.768 for tricaprylin and triolein, respectively.
Keywords:Chromobacterium viscosum  Pseudomonas glumae  lipase  triglyceride hydrolysis  emulsion system  reversed micelles
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