Characterization of an alkaline elastase from alkalophilic Bacillus Ya-B

Abstract

The alkaline elastase produced by alkalophilic Bacillus Ya-B was a new type of proteinase which had a very high optimum pH and high elastolytic activity. It also had a high hydrolyzing activity against keratin and collagen. The molecular weight was determined to be 23 700 and 25 000 by ultracentrifugation analysis and SDS-polycrylamide gel electrophoresis, respectively. The isoelectric point was 10.6. The optimum reaction temperature was 60°C. Like many alkaline proteinases, this enzyme required Ca 2+ for stability. The optimum reaction pH was 11.75 toward casein and elastin-orcein. The K cat/ K m values of the enzyme to synthetic substrates were constant from pH 8.5 up to 12.75. The enzyme was stable in the pH range 5.0–10.0. The enzyme was inhibited by alkaline proteinase inhibitors Streptomyces subtilisin inhibitor and microbial alkaline proteinase inhibitor, but not by elastatinal or the metalloproteinase inhibitor metalloproteinase inhibitor. Sodium chloride inhibited the elastolytic activity but not the caseinolytic activity at a concentration below 0.2 M. The inhibitory effect of sodium chloride to elastolytic activity was much more prominent at pH 9.0 than at pH 11.5. More than 50% of the enzyme bound onto elastin in the pH range below the isoelectric point of this enzyme. The amino-terminal sequence of the enzyme was determined, and compared with those of subtilisin BPN′ and subtilisin Carlsberg. Extensive sequence homology was noted among these three enzymes.