The regulatory networks involved in the uptake and metabolism of different nitrogen sources in response to their availability are crucial in all organisms. Nitrogen metabolism pathways have been studied in detail in archaea such as the extreme halophilic archaeon Haloferax mediterranei. However, knowledge about nitrogen metabolism regulation in haloarchaea is very scarce, and no transcriptional regulators involved in nitrogen metabolism have been identified to date. Advances in the molecular biology field have revealed that many small RNAs (sRNAs) are involved in the regulation of a diverse metabolic pathways. Surprisingly, no studies on regulation mediated by sRNAs have focused on the response to environmental fluctuations in nitrogen in haloarchaea. To identify sRNAs involved in the transcriptional regulation of nitrogen assimilation genes in Haloferax mediterranei and, thus, propose a novel regulatory mechanism, RNA-Seq was performed using cells grown in the presence of two different nitrogen sources. The differential transcriptional expression analysis of the RNA-Seq data revealed differences in the transcription patterns of 102 sRNAs according to the nitrogen source, and the molecular functions, cellular locations and biological processes with which the target genes were associated were predicted. These results enabled the identification of four sRNAs that could be directly related to the regulation of genes involved in nitrogen metabolism. This work provides the first proposed regulatory mechanism of nitrogen assimilation-related gene expression by sRNAs in haloarchaea as an alternative to transcriptional regulation mediated by proteins.
Keywords: Gene expression regulation; Haloarchaea; Nitrogen metabolism; Non-coding RNAs; RNA-Seq.