Acidic condition-inducible polygalacturonase of Aspergillus kawachii

Abstract

Aspergillus kawachii IFO 4308, which can grow in an extremely acidic condition (pH 2), produced some extracellular polygalacturonases (PGase). However, pH 2 and pH 5 culture filtrates showed different pH PGase activity profiles. Anion exchange chromatographies revealed that the PGase compositions of the two culture filtrates were different, and dominant enzymes (PGase-A1 and -A2 in the pH 2 culture and PGase-B in the pH 5 culture) were purified and characterized. The optimal pH was pH 4 for A1, pH 3 for A2, and pH 5 for B. PGase-A1 and -A2 were more stable at low pH than PGase-B. Molecular masses of PGase-A1, -A2, and -B were 43, 83, and 71 kDa, respectively. The N-terminal amino acid sequence of PGase-B was similar to those of other fungal PGases, but distinctly different from those of PGase-A1 and -A2. These results suggest that PGase-A1 and -A2 may be acidic condition-inducible enzymes and that a pH-regulated expression system is involved in the PGase production of A. kawachii.