RNA sequence and secondary structure participate in high-affinity CsrA-RNA interaction

Ashok K. Dubey, Carol S. Baker, Tony Romeo, Paul Babitzke

Research output: Contribution to journalArticlepeer-review

208 Scopus citations


The global Csr regulatory system controls bacterial gene expression post-transcriptionally. CsrA of Escherichia coli is an RNA binding protein that plays a central role in repressing several stationary phase processes and activating certain exponential phase functions. CsrA regulates translation initiation of several genes by binding to the mRNA leaders and blocking ribosome binding. CsrB and CsrC are noncoding regulatory RNAs that are capable of sequestering CsrA and antagonizing its activity. Each of the known target transcripts contains multiple CsrA binding sites, although considerable sequence variation exists among these RNA targets, with GGA being the most highly conserved element. High-affinity RNA ligands containing single CsrA binding sites were identified from a combinatorial library using systematic evolution of ligands by exponential enrichment (SELEX). The SELEX-derived consensus was determined as RUACARGGAUGU, with the ACA and GGA motifs being 100% conserved and the GU sequence being present in all but one ligand. The majority (51/55) of the RNAs contained GGA in the loop of a hairpin within the most stable predicted structure, an arrangement similar to several natural CsrA binding sites. Strikingly, the identity of several nucleotides that were predicted to form base pairs in each stem were 100% conserved, suggesting that primary sequence information was embedded within the base-paired region. The affinity of CsrA for several selected ligands was measured using quantitative gel mobility shift assays. A mutational analysis of one selected ligand confirmed that the conserved ACA, GGA, and GU residues were critical for CsrA binding and that RNA secondary structure participates in CsrA-RNA recognition. Published by Cold Spring Harbor Laboratory Press.

Original languageEnglish (US)
Pages (from-to)1579-1587
Number of pages9
Issue number10
StatePublished - Oct 2005

All Science Journal Classification (ASJC) codes

  • Molecular Biology


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