Steady state growth under inorganic carbon limitation increases energy consumption for maintenance and enhances nitrous oxide production in Nitrosomonas europaea. Nitrosomonas europaea

Nitrosomonas europaea is a chemolithoautotrophic bacterium that oxidizes ammonia (NH3) to obtain energy for growth on carbon dioxide (CO2), and can also produce nitrous oxide (N2O), a greenhouse gas. We interrogated the growth, physiological, and transcriptome responses of N. europaea to replete (> 5.2 mM) and limited inorganic carbon (IC) provided by either 1.0 mM or 0.2 mM sodium carbonate (Na2CO3) supplemented with atmospheric CO2. IC-limited cultures oxidized 25 to 58% of available NH3 to nitrite, depending on dilution rate and Na2CO3 concentration. IC limitation resulted in a 1.5-fold increase in cellular maintenance energy requirements compared to NH3-limited cultures. Rates of N2O production increased 2- and 6.3 fold under the two IC-limited conditions increasing the percentage of oxidized NH3-N being transformed to N2O-N from 0.5% (replete) to 4.4% (0.25 mM Na2CO3). Transcriptome analysis showed differential expression (p ≤ 0.05) of 488 genes (20% of inventory) between replete and IC-limited conditions, but few differences were detected between the two IC-limiting treatments. IC-limited conditions resulted in decreased expression of ammonium/ammonia transporter and ammonia monooxygenase subunits, and increased expression of genes involved in C1 metabolism including RuBisCO (cbb gene cluster), carbonic anhydrase, folate-linked metabolism of C1 moieties, and putative C salvage due to oxygenase activity of RuBisCO. Increased expression of nitrite reductase (gene cluster NE0924-0927) correlated with increased production of N2O. Together, these data suggest that N. europaea adapts physiologically during IC-limited steady state growth, which leads to uncoupling of NH3 oxidation from growth and increased N2O production. Overall design: Transcriptome responses of N. europaea under three inorganic carbon (IC) conditions: IC replete (2 mM Na2CO3, 100 mL min-1 0.2-µm-filtered atmospheric air), 1.0 mM Na2CO3, and 0.2 mM Na2CO3 (both IC-limiting conditions with 50 mL min-1 0.2-µm-filtered atmospheric air) were measured. There were three experimental replicates of each treatment and fold change in mRNA transcripts was calculated in comparison to IC replete.