Artificial sRNAs activating the Gac/Rsm signal transduction pathway in Pseudomonas fluorescens

VALVERDE, C.

ARCHIVES OF MICROBIOLOGY

SPRINGER

Año: 2009 vol. 191 p. 349 - 359

0302-8933

In Pseudomonas Xuorescens CHA0, the synthesis of antifungal compounds is post-transcriptionally activated by the Gac/Rsm cascade. The two-component system GacS/GacA promotes transcription of three small regulatory RNAs (i.e., sRNAs), RsmX, RsmY, and RsmZ, which remove the regulatory proteins RsmA and RsmE from the ribosome-binding sites of exoproduct-related mRNAs. The GacS/GacA-dependent accumulation of RsmX/Y/Z and formation of RsmX/Y/Z-RsmA/E complexes relieve mRNA translational repression. Other bacteria as E. coli and Vibrio spp. utilize similar sRNA–protein based systems to adjust mRNA translation (e.g., the E. coli Csr system for carbon storage, motility and bioWlm regulation). The Rsm/Csr sRNAs are remarkably similar in that they contain several stem-loops with an invariant GGA trinucleotide exposed in the hairpin loop that would be the characteristic structuralsequence motifs relevant for sRNA activity and stability. Here it is shown that the dysfunctional Gac/Rsm cascade of P. Xuorescens rsmXYZ mutants could be restored by appropriate transcription levels of artiWcial genes encoding RNAs with unrelated primary sequence but with two or more hairpins displaying the RsmA/E binding motifs. The results support the hypothesis that the molecular mimicry of Rsm/Csr sRNAs is based on proper secondary structures that expose critical binding motifs irrespective of their overall sequence.