Molybdenum enhancement of nitrogen fixation in a Mo-starved Azotobacter vinelandii Nif− mutant
- 1 October 1982
- journal article
- research article
- Published by Canadian Science Publishing in Canadian Journal of Microbiology
- Vol. 28 (10), 1173-1180
- https://doi.org/10.1139/m82-173
Abstract
Molybdenum (Mo)-starved wild-type and Nif− strains of Azotobacter vinelandii reduced acetylene (fixed nitrogen) in Mo-limited nitrogen-free medium. Vanadate enhanced this activity in all of the strains. Molybdate caused repression of nitrogenase activity in the Nif− mutants and enhanced the nitrogenase activity in the wild type. The nitrogenase activity in the Nif− mutant UW3, however, was enhanced by Mo, became maximal after 3 h, and then declined to zero after 10 h of incubation. The activation of nitrogenase by Mo followed a 5- to 10-min lag and was inhibited when streptomycin or rifampin was added with Mo. Examination of Mo-starved nitrogen-fixing UW3 cell extracts by two-dimensional polyacrylamide gel electrophoresis revealed molecular weight 57 000, 50 000, and 30 000 proteins that were Mo and NH4+ repressive. The molecular weight 30 000 protein appeared in the same position on the gel as the wild-type dinitrogenase reductase, although UW3 did not produce this protein under Mo-sufficient nitrogen-fixing conditions. Cell extracts prepared 3 h after Mo addition lacked the molecular weight 57 000 and 50 000 proteins but contained a new protein corresponding to the β subunit of dinitrogenase. When UW3 nitrogenase activity was lost, the dinitrogenase reductase-like protein also was absent. The results suggest that a complex active in nitrogen fixation may form between components of the traditional Mo-sufficient and alternative Mo-starved cell nitrogen fixation systems.Keywords
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