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Highlights•A library-based approach for synthetic sRNAs with varying seed region length (SRL)•Synthetic RybB sRNAs are processed by RNase E at AU-rich sequence motifs•Accessibility of SgrS seed regions is an important determinant for functionality•Importance of Hfq and SRL for regulatory efficiency depends on the sRNA scaffoldSummaryAll organisms must respond to environmental changes. In bacteria, small RNAs (sRNAs) are an important aspect of the regulation network underlying the adaptation to such changes. sRNAs base-pair with their target mRNAs, allowing rapid modulation of the proteome. This post-transcriptional regulation is usually facilitated by RNA chaperones, such as Hfq. sRNAs have a potential as synthetic regulators that can be modulated by rational design. In this study, we use a library-based approach and oxacillin susceptibility assays to investigate the importance of the seed region length for synthetic sRNAs based on RybB and SgrS scaffolds in Escherichia coli. In the presence of Hfq we show that 12 nucleotides are sufficient for regulation. Furthermore, we observe a scaffold-specific Hfq-dependency and processing by RNase E. Our results provide information for design considerations of synthetic sRNAs in basic and applied research.Graphical abstract
Brück et al. (Fri,) studied this question.