Nitrogenase Synthesis in Klebsiella pneumoniae: Comparison of Ammonium and Oxygen Regulation

Abstract

SUMMARY: Rates of nitrogenase synthesis by Klebsiella pneumoniae were measured by pulse-labelling organisms with a mixture of ¹⁴C-labelled amino acids followed by sodium dodecyl sulphate gel electrophoresis and autoradiography. Populations from an NH₄+-repressed, SO₄^2--limited chemostat (0-46 mg dry wt m1^-1), when released from NH₄+ repression, simultaneously synthesized detectable quantities of the three nitrogenase polypeptides 45 min before acetylene-reducing activity was observed. Exposure of populations synthesizing nitrogenase to air or NH₄+ (200 µg N m1^-1) repressed synthesis of both component proteins simultaneously, the rate initially decreasing by half in 11 to 12 min; in the presence of NH₄+ a second slower phase with an approximate half-life of 30 min was observed. With 5% O₂ in N₂ the half-lives for the decreases in the rates of synthesis were 30 min for the Fe protein and 33 min for the Mo-Fe protein. Oxygen also repressed nitrogenase in a glutamine synthetase constitutive derivative of K. pneumoniae (strain SK24) which escapes NH₄+ repression. Regulation of nitrogenase by O₂ may therefore be independent of glutamine synthetase.