%0 Journal Article %A Boogerd, Fred C. %A Pronk, Annemieke F. %A Mashingaidze, Cyril %A Affourtit, Charles %A Stouthamer, Adriaan H. %A van Verseveld, Henk W. %A Westerhoff, Hans V. %T Oxygen protection of nitrogen fixation in free-living Azorhizobium caulinodans: the role of cytochrome aa3 %D 1998 %J Microbiology, %V 144 %N 7 %P 1773-1782 %@ 1465-2080 %R https://doi.org/10.1099/00221287-144-7-1773 %K oxygen %K auto-protection %K nitrogen fixation %K cytochrome aa3 %K respiratory protection %I Microbiology Society, %X The growth properties of Azorhizobium caulinodans wild-type and a cytochrome aa3 mutant strain, both growing with N2 as N source at fixed dissolved partial oxygen pressures in the range 0.5--4.0 kPa, were studied by making use of continuous cultures (chemostats and pH-auxostats) and transient cultures. In succinate-limited chemostats, the wild-type exhibited a higher growth yield than the aa3 mutant at every dissolved oxygen tension tested, indicating activity of cytochrome aa3 in this entire oxygen regime. The growth yield of both the wild-type and the aa3 mutant declined when the dissolved oxygen tension was raised. In contrast, for growth on ammonia at the same dilution rate, the wild-type showed an increase in growth yield with increasing dissolved oxygen tension, whereas the growth yield of the aa3 mutant remained constant. The transient changes in growth properties observed in chemostat cultures after pulsing with succinate pointed to a negative effect of oxygen on the maximum specific growth rate. This was studied further in steady-state pH-auxostat cultures. The specific growth rate of both strains decreased with increasing dissolved oxygen tension. The less steep decline in growth rate of the wild-type compared to the aa3 mutant confirmed that cytochrome aa3 is active in the wild-type. Again, the growth yield of both strains decreased with the dissolved oxygen tension, but in contrast to the results obtained with chemostats, no difference in growth yield was observed between wild-type and mutant at any oxygen tension. In either type of continuous culture a decrease in the overall P/O ratio with increasing dissolved oxygen tension is improbable for the wild-type, and even more so for the aa3 mutant. Therefore, the adverse effects of oxygen on the growth of A. caulinodans are not readily explained by respiratory protection; alternatively, it is proposed that the catalytic oxidation of nitrogen-fixation-specific redox enzymes by oxygen (auto-protection) enables the bacterium to deal with intracellular oxygen at the expense of reducing equivalents and free energy. To compensate for the loss of free energy, respiration increases and an active cytochrome aa3 contributes to this by keeping the P/O ratio high. %U https://www.microbiologyresearch.org/content/journal/micro/10.1099/00221287-144-7-1773