Characterization of an aerobic denitrifier Enterobacter cloacae strain HNR and its nitrate reductase gene.

Abstract

Enterobacter cloacae strain HNR was found to grow well and denitrify aerobically at high NO3--N concentrations. When the concentrations of NO3--N were 200, 300 and 500 mg/L, the removal efficiencies of NO3--N were 83%, 74.5% and 75%, respectively. More importantly, the intermediates accumulation of NO2--N and NH4+-N was not obvious during the aerobic denitrification processes, resulting in a high TN removal of 82%, 74% and 70%, respectively. Meanwhile, strain HNR also presented the ability of heterotrophic nitrification. With initial NH4+-N concentrations of 20 and 80 mg/L, the NH4+-N removal efficiency reached 78% and 76%, respectively. The key nitrate reductase enzyme gene relating to denitrification was successfully amplified by polymerase chain reaction (PCR) from strain HNR, and identified it as napA, which encodings the large catalytic subunit A of periplasmic nitrate reductase (NAPA). The sequence analysis of napA indicates that NAPA is a hydrophilic, non-transmembrane protein. The existence of napA might be crucial for strain HNR to denitrify nitrate under aerobic conditions. This study showed prospect to develop novel technology for nitrogen removal by application of E. cloacae strain HNR.