Improvement of acid phosphatase production by immobilization of Humicola lutea mycelium in polyurethane sponge

Abstract

Acid phosphatase production by the fungus Humicola lutea 120-5, immobilized in polyurethane sponge, was studied under semicontinuous shake flask fermentation and compared to the enzyme secretion by free cells. The effect of parameters such as the carrier content and the duration of the batch in repeated batch experiments on the phosphatase production half-life was investigated. The best results were obtained with 1.0 g of sponge cubes (about 1.0 cm per side) per culture flask using 72 h runs. In these conditions the half-life of enzyme production by immobilized biocatalyst was 15 sequential cycles (45 days) compared to three cycles (9 days) for the free mycelium. The maximal phosphatase titre registered in free cell fermentation was 2500 U/l (i.e. 100%), while the relative enzyme activity of the optimal immobilized system was over 100% during the whole half-life time of 45 days. Significant improvement (200–215%) in the yield was observed in one-third of this period or 15 days. The supernatant medium obtained at any stage of the repeated batch cultures did not contain free cells and, due to the low pH (3.0–3.5), the whole process was carried out without any bacterial contamination. In comparison with free cell fermentation, the significant improvement of the acid phosphatase production by polyurethane sponge-immobilized H. lutea mycelium as well as its operation stability was confirmed by scanning electron microscopy.