sRNA₁₅₄ a newly identified regulator of nitrogen fixation in Methanosarcina mazei strain Gö1

Trans-encoded sRNA₁₅₄ is exclusively expressed under nitrogen (N)-deficiency in Methanosarcina mazei strain Gö1. The sRNA₁₅₄ deletion strain showed a significant decrease in growth under N-limitation, pointing toward a regulatory role of sRNA₁₅₄ in N-metabolism. Aiming to elucidate its regulatory function we characterized sRNA₁₅₄ by means of biochemical and genetic approaches. 24 homologs of sRNA₁₅₄ were identified in recently reported draft genomes of Methanosarcina strains, demonstrating high conservation in sequence and predicted secondary structure with two highly conserved single stranded loops. Transcriptome studies of sRNA₁₅₄ deletion mutants by an RNA-seq approach uncovered nifH- and nrpA-mRNA, encoding the α–subunit of nitrogenase and the transcriptional activator of the nitrogen fixation (nif)-operon, as potential targets besides other components of the N-metabolism. Furthermore, results obtained from stability, complementation and western blot analysis, as well as in silico target predictions combined with electrophoretic mobility shift-assays_, argue for a stabilizing effect of sRNA₁₅₄ on the polycistronic nif-mRNA and nrpA-mRNA by binding with both loops. Further identified N-related targets were studied, which demonstrates that translation initiation of glnA₂-mRNA, encoding glutamine synthetase2, appears to be affected by sRNA₁₅₄ masking the ribosome binding site, whereas glnA₁-mRNA appears to be stabilized by sRNA₁₅₄. Overall, we propose that sRNA₁₅₄ has a crucial regulatory role in N-metabolism in M. mazei by stabilizing the polycistronic mRNA encoding nitrogenase and glnA₁-mRNA, as well as allowing a feed forward regulation of nif-gene expression by stabilizing nrpA-mRNA. Consequently, sRNA₁₅₄ represents the first archaeal sRNA, for which a positive posttranscriptional regulation is demonstrated as well as inhibition of translation initiation.