Connection between nitrogen and manganese cycles revealed by transcriptomic analysis in Shewanella algae C6G3

Valerie Michotey1, Axel Aigle1, Fabrice Armougom1, Vincent Mejean2, Sophie Guasco1 and Patricia Bonin1, (1)Aix Marseille University, M.I.O, Marseille, France, (2)Aix Marseille University,, IMM, Marseille, France
Abstract:
In sedimentary systems, the repartition of terminal electron-accepting molecules is often stratified on a permanent or seasonal basis. Just below to oxic zone, the suboxic one is characterized by high concentrations of oxidized inorganic compounds such as nitrate, manganese oxides (MnIII/IV) and iron oxides that are in close vicinity. Several studies have reported unexpected anaerobic nitrite/nitrate production at the expense of ammonium mediated by MnIII/IV, however this transient processes is difficult to discern and poorly understood. In the frame of this study, genes organization of nitrate and MnIII/IV respiration was investigated in S.algae. Additional genes were identified in S. algae compare to S. oneidensis: genes coding for nitrate and nitrite reductase (napA-a and nrfA-2) and an OMC protein (mtrH). In contrast to S. oneidensis, an anaerobic transitory nitrite accumulation at the expense of ammonium was observed in S. algae during growth with MnIII/IV, concomitantly with expression of nitrate/nitrite reductase genes (napA, nrfA, nrfA-2). Among the hypothesis explaining this data, the potential putative expression of unidentified gene able to perform ammonium oxidation was not observed on the global transcriptional level, however several signs of oxidative stress were detected and the existence of a secondary reaction generated by a putative oxidative s could not be excluded. Another option could be the action of reverse reaction by an enzyme such as NrfA or NrfA-2 due to the electron flow equilibrium. Whatever the electron acceptor (Nitrate/ MnIII/IV), the unexpected expression level of of omcA, mtrF, mtrH, mtrC was observed and peaked at the end of the exponential phase. Different expression patterns of the omc genes were observed depending on electron acceptor and growth phase. Only mtrF-2 gene was specifically expressed in Mn(III/IV) condition. Nitrate and Mn(III/IV) respirations seem connected at physiological as well as at transcriptional level