The role of the 5’ sensing function of ribonuclease E in cyanobacteria

RNA degradation is crucial for many processes in pro- and eukaryotic organisms. In bacteria, the preference of the central ribonucleases RNase E, RNase J and RNase Y towards 5’-monophosphorylated RNAs is considered important for RNA degradation. For RNase E, the underlying mechanism is termed 5’ sensing. Cyanobacteria, such as Synechocystis sp. PCC 6803 ( Synechocystis ), encode RNase E and RNase J homologs. Here, we constructed a Synechocystis strain lacking the 5’ sensing function of RNase E and mapped on a transcriptome-wide level 292 5’-sensing-dependent cleavage sites. These included so far unknown targets such as the 5’ untranslated region of the response regulator gene lsiR ; trxA, apcE and atpI mRNAs, encoding proteins related to energy metabolism; as well as sbtB and rbcLXS encoding proteins relevant for carbon fixation. Cyanobacterial 5’ sensing is important for the maturation of rRNA and several tRNAs, including tRNAGluUUC. This tRNA activates glutamate for tetrapyrrole biosynthesis in plant chloroplasts and most prokaryotes. We found that increased RNase activities leads to a higher copy number of the major Synechocystis plasmids pSYSA and pSYSM. The results provide a first step towards understanding the relative importance of different target mechanisms of RNase E outside Escherichia coli . ### Competing Interest Statement The authors have declared no competing interest.