Bacillus subtilis JM‐3 was isolated from anchovy sauce naturally fermented in an underground cellar at 15 ± 3C for 3 years. The activity of the B. subtilis protease was highest in the 40–60% ammonium sulfate fraction. The yield of the purified protease was 5.3%, and its purification ratio was 35.6 folds. The molecular weight of the B. subtilis protease was 17.1 kDa, and its Km and Vmaxvalues were 1.75 μg/mL and 318 μM 1/min, respectively. The optimal temperature for protease activity was 60C, but optimal stability temperature was 30C. The optimal pH for protease activity and stability was 5.5. Therefore, the B. subtilis JM‐3 protease was classified as an acid protease. The relative activities of the B. subtilis JM‐3 protease were 69, 21 and 1.3% at 10, 20 and 30% NaCl concentrations, respectively. The best substrate for the B. subtilis JM‐3 protease was benzyloxycarbonyl‐glycine‐p‐nitrophenyl ester followed by bovine serum albumin. p‐Toluene‐sulfonyl‐L‐lysine chloromethylketone was the strongest inhibitor followed by soybean trypsin inhibitor, but N‐ethylmaleimide did not inhibit this enzyme. The B. subtilis JM‐3 protease was therefore presumed to be a trypsin‐like serine protease.
Aims: To purify and characterize an exo‐acting chitinolytic enzyme produced from a Gram‐negative bacterium Pseudomonas fluorescens JK‐0412. Methods and Results: A chitinolytic bacterial strain that showed confluent growth on a minimal medium containing powder chitin as the sole carbon source was isolated and identified based on a 16S ribosomal DNA sequence analysis and named Ps. fluorescens JK‐0412. From the culture filtrates of this strain, a chito‐oligosaccharides‐degrading enzyme was purified to apparent homogeneity with a molecular mass of 50 kDa on SDS–PAGE gels. The kinetics, optimum pH and temperature, and substrate specificity of the purified enzyme (named as NagA) were determined. Conclusions: An extracellular chitinolytic enzyme was purified from the Ps. fluorescens JK‐0412 and shown to be an exo‐type β‐N‐acetylglucosaminidase yielding GlcNAc as the final product from the natural chito‐oligosaccharides, (GlcNAc)n, n = 2–5. Significance and Impact of the Study: As NagA is secreted extracellularly in the presence of colloidal chitin, Ps. fluorescens JK‐0412 can be recognized as a potent producer for industry‐level and cost‐effective production of chitinolytic enzyme. This enzyme appears to have potential applications as an efficient tool for the degradation of chitinous materials and industry‐level production of GlcNAc. To the best of our knowledge, this is the first report on an exo‐type chitinolytic enzyme of Pseudomonas species.
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