Pathways of energy metabolism required for phenotypic expression of nif+Kp genes in Escherichia coli.

In E. coli K12 (F'nif+Kp) hybrids, electron-transport-dependent phosphorylation is not necessary for anaerobic nitrogen fixation, and substrate level phosphorylation can provide sufficient ATP from glucose for nitrogenase activity. The fumarate-reduction system, however, is essential in these hybrids for the transfer of electrons to nitrogenase. This system is probably also involved in maintaining the membrane in the energized state, thereby allowing nitrogen fixation to occur. The nitrate-reduction system, which can energize the membrane like the fumarate-reduction system, is not necessary for nitrogenase activity in the E. coli K12(F'nif+Kp) hybrids. However, two nitrate reductase genes, chlA, and chlB, are essential for inhibition of nitrogen fixation by nitrate. Moreover, nitrate inhibits nitrogenase activity and this inhibition is most probably effected through a regulator factor coded by chlA and chlB.