Abstract
—The possible nitrogen sources for Osc. trichoides DG6, a typical strain of the Oscillochloridaceae family, are ammonium, N2, glutamate, asparagine, glycine, and glutamine. The assimilation of molecular nitrogen occurs with the participation of nitrogenase, the structural gene of which, nifH, is located in the gene cluster which also includes the genes of the nifD and nifK nitrogenase subunits and the auxiliary nifB gene. Considering that nifHBDK clusters have been also annotated in the genomes of other members of the Oscillochloridaceae family, including uncultured and candidate taxa, it can be assumed that the ability to fix nitrogen is a property immanent for this entire family. The pathways for assimilating ammonium in the cells grown using different nitrogen sources may differ. Osc. trichoides DG6 growing in a medium containing ammonium assimilated it with the participation of glutamate dehydrogenase, which is determined by a single gene. The expression product of this gene has dual functionality and can be used to implement the reaction with both NAD and NADP. With the growth of Osc. trichoides DG6 on a medium with glutamate as the only nitrogen source all the enzymes necessary for the implementation of the GS‑GOGAT pathway were found in the cells. However, for the glutamine synthetase reaction, ammonium, which was absent in the growth medium, was required. The source of ammonium may be glutamate metabolized through glutamate dehydrogenase.
Highlights
All currently known anoxygenic filamentous phototrophic bacteria (AFPBs) belong to the phylum Chloroflexi
It was suggested that the incapacity of these bacteria to grow under diazotrophic conditions results from a lack of supplementary genes that are normally implicated in the biosynthesis and maturation of the functional apoprotein of the nitrogenase
These data were confirmed by analyzing the Cfl. aurantiacus genome that lacked the structural genes of nitorogenase and nitrate reductase (Tang et al, 2011)
Summary
All currently known anoxygenic filamentous phototrophic bacteria (AFPBs) belong to the phylum Chloroflexi. Representatives of the family Chloroflexaceae can utilize ammonium and amino acids, such as alanine, glutamate, glutamine, aspartate, glycine, and serine, but not nitrates as the sole nitrogen source (Heda and Madigan, 1986; Hanada, 2014). Nitrogen-fixing capacity and nitrogenase activity were not detected in four Chloroflexus aurantiacus strains which was correlated with their thermophily (Heda and Madigan, 1986; Hanada, 2014) These data were confirmed by analyzing the Cfl. aurantiacus genome that lacked the structural genes of nitorogenase and nitrate reductase (Tang et al, 2011). Amplification and sequencing of the nifH gene encoding the nitrogenase, the key enzyme of the nitrogenase complex, was carried out; the gene is located on the DNA matrix of three Oscillochloris strains, including Osc. trichoides DG-6 (Tourova et al, 2006)
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