DNase activity of micrococcal endonuclease covalently immobilized on nylon and polystyrene.

Water-insoluble nucleases were prepared by immobilizing the endonuclease from S. aureus onto the surface of nylon-66 and polystyrene spheres. The activation phase of the synthetic supports was optimized to define optimal conditions of pH, temperature, and Ca2+ concentration for using immobilized enzymes.

Enzyme coupling method on calibrated nylon spheres: application to the selective trypsinization of histones in chromatin.

A new method consisting of a two-step activation was developed in order to covalently immobilize enzymes on calibrate nylon 66 spheres. This efficient method associates for the first time peptide bond cleavage and O-alkylation of the support. Optimal conditions for activation and protein coupling were defined, and immobilized trypsin was used to investigate the histone accessibility on chromatin.

Conductimetry: a new tool for studying inhibition of elastolysis.

The conductimetric method was applied to the measurement of human leukocyte elastase activity, using insoluble elastin as a substrate. From conductance changes, initial rates of elastolysis were derived. A linear relationship of enzyme activity with enzyme concentration was demonstrated up to 400nM of enzyme, for three different substrates.

Ca2+ and Mg2+ protection against thermal denaturation of pancreatic elastase.

Thermal denaturation of porcine pancreatic elastase was studied by difference spectrophotometry. At 293 nm, and pH 8.0, the thermal transition of elastase occurs with a midpoint temperature (Tm) of (58.

Lipase assay in duodenal juice using a conductimetric method.

Lipase activity in duodenal juice is known to undergo important variations in pathologic states, especially in cases of chronic pancreatitis. Almost all of the current assay methods are based on the measurement of hydrolysis of olive oil or triolein, mainly by potentiometry. As we have developed a conductimetric method for enzyme activity measurements, we have applied it to lipase assay.