Aerobic Degradation of Tetracyanonickelate¡]II¡^by Azotobacter vinelandii

Li, Shu-Hui

01 July 2003

In this study, Azotobacter vinelandii ATCC13705 (A. vinelandii), which is a free-living, nitrogen-fixing, gram-negative, and aerobic rod bacterium, was need to evaluate its ability to biodegrade tetracyanonickelate (TCN) under different conditions. Results show that A. vinelandii was able to biodegrade various concentrations of TCN (1, 10, and 20 mM) under aerobic conditions. Oxygen consumption and nitrogenase activity were investigated at 1 mM of TCN. Results indicate that the production of ammonia and methane was observed when TCN was consumed. Results suggest that nitrogenase was possibly involved in the enzymatic degradation of TCN. Moreover, higher degradation rate of TCN, higher nitrogenase activity, higher oxygen consumption, and higher specific growth rates were also observed at log growth period. Results suggest that the hypothesis of respiratory protection of nitrogenase is supported. Moreover, the addition of ammonia (1, 5, and 10 mM) would cause the decrease of TCN degradation rate (28%) during a 24-hr incubation period. Inhibition of TCN degradation (degradation rate¡G16% for 24 hrs) was observed when nitrite (5 and 10 mM) was added into the growth medium. Furthermore, the addition of 8% of glucose would significantly enhance the TCN degradation by the resting cells (degradation rate¡G43% for 8 hrs) . Results from this study provide us insight into the characteristics and mechanisms of TCN conversion by A. vinelandii.

ammonia

nitrogenase

cell-free extracts

Azotobacter vinelandii

nitrite

resting cells

tetracyanonickelate