TY - JOUR T1 - Denitrifying metabolism of the methylotrophic marine bacterium <em>Methylophaga nitratireducenticrescens</em> strain JAM1 JF - bioRxiv DO - 10.1101/180950 SP - 180950 AU - Florian Mauffrey AU - Alexandra Cucaita AU - Philippe Constant AU - Richard Villemur Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/09/06/180950.abstract N2 - Methylophaga nitratireducenticrescens strain JAM1 is a methylotrophic, marine bacterium that was isolated from a denitrification reactor treating a closed-circuit seawater aquarium. It can sustain growth under anoxic conditions by reducing nitrate (NO3−) to nitrite (NO2−), which accumulates in the medium. These physiological traits are attributed to gene clusters that encode two dissimilatory nitrate reductases (NarGHJI). M. nitratireducenticrescens strain JAM1 also contains gene clusters encoding two putative nitric oxide reductase (NO) reductases and one putative nitrous oxide (N2O) reductase, suggesting that NO and N2O can be reduced by strain JAM1. In this study, we show that strain JAM1 can reduce NO to N2O and N2O to N2 and can sustain growth under anoxic conditions by reducing N2O as the sole electron acceptor. Although strain JAM1 lacks a gene encoding a dissimilatory copper-(NirK) or cytochrome cd1-type (NirS) NO2− reductase, NO3−-amended strain JAM1 cultures produce N2O, representing up to 6% of the N-input. NO2− was shown to be the key intermediate of this production process. In NO3−amended cultures, we analyzed denitrification genes in succession of net N2O-production and -consumption phases at the gene expression level. These phases were found to correlate with changes in the expression levels of the NO reductase gene cnorB1 and nnrS, which indicated NO production in the cultures.Importance By showing that all the three denitrification reductases are active, this demonstrates that Methylophaga nitratireducenticrescens JAM1 is one of many bacteria species that maintain genes associated primarily with denitrification, but not necessarily related to the maintenance of the entire pathway. The reason to maintain such incomplete pathway could be related to the specific role of strain JAM1 in the denitrifying biofilm of a denitrification reactor from which it originates. The small production of N2O via NO in strain JAM1 did not involve Nar contrary to what was demonstrated in Escherichia coli. M. nitratireducenticrescens JAM1 is the only reported Methylophaga species that has the capacity to grow under anoxic conditions by using NO3− and N2O as sole electron acceptors for its growth. It is also one of a few marine methylotrophs that is studied at the physiological and genetic levels in relation to its capacity to perform denitrifying activities. ER -