Extracellular expression of pullulanase from Bacillus naganoensis in Escherichia coli

The pullulanase encoding gene from Bacillus naganoensis was successfully overexpressed in Escherichia coli both intracellularly and extracellularly using expression vector pET22b (+). The distribution of recombinant protein was significantly affected by temperature and carbon and nitrogen sources. The highest levels of extracellular and intracellular production of the target protein were observed at 25 and 20 A degrees C, respectively. The addition of maltose, dextrin, pullulan, and soluble starch to the culture medium caused significant increases in the extracellular yield of pullulanase, while glucose strongly inhibited pullulanase production. The results show that the optimal conditions for maximum yield of extracellular pullulanase required high levels of carbon source and a limited nitrogen supply, while low concentrations of carbon and nitrogen source favored intracellular pullulanase expression. High concentrations of nitrogen source strongly inhibited the production of pullulanase.