Are small RNAs involved in the regulation of nitrogen metabolism in haloarchaea?

Small RNAs have been studied in detail in Bacteria and Eukarya domain, but in the case of Archaea domain the knowledge is scarce and the physiological function of the majority is still uncertain. To extend the knowledge of sRNAs in Archaea domain and its possible role in the regulation of the nitrogen assimilation metabolism in haloarchaea, Haloferax mediterranei has been used as a model microorganism. Bioinformatic approach has allowed to predict 295 putative sRNAs genes in the genome of H. mediterranei, 88 of which have been verified by means of RNA-seq. The secondary structure of putative sRNAs and its possible targets have been identified. Curiously, some of them present as possible targets genes related to the nitrogen assimilation, as glutamate dehydrogenase or regulatory nitrogen protein PII. Analysis of RNA-seq data has also revealed differences in the expression pattern of 16 sRNAs according to the nitrogen source. Consequently, RNomic and the bioinformatic approaches used in this work have allowed the identification of new sRNAs in Hfx. mediterranei, some of which show different expression pattern depending on the nitrogen source. It suggests that these sRNAs could be involved in the regulation of nitrogen assimilation, being able to constitute important gene regulatory network. microRNAs were isolated from Hfx. Mediterranei cultures grown in the presence of two different nitrogen sources, nitrate and ammonium, to mid-exponential phase.