Positional effects of AAN motifs in rpoS regulation by sRNAs and Hfq.

The Escherichia coli stationary phase transcription factor RpoS is translated in response to small noncoding RNAs (sRNAs), which base pair with the rpoS mRNA leader. The bacterial Sm-like protein Hfq anneals sRNAs with their mRNA targets by simultaneously binding the mRNA and sRNA. Intriguingly, Hfq is recruited to the rpoS leader via AAN motifs far upstream of the sRNA.

RNase footprinting of protein binding sites on an mRNA target of small RNAs.

Endoribonuclease footprinting is an important technique for probing RNA-protein interactions with single nucleotide resolution. The susceptibility of RNA residues to enzymatic digestion gives information about the RNA secondary structure, the location of protein binding sites, and the effects of protein binding on the RNA structure. Here we present a detailed protocol for using RNase T2, which cleaves single stranded RNA with a preference for A nucleotides, to footprint the protein Hfq on the rpoS mRNA leader.

Major role for mRNA binding and restructuring in sRNA recruitment by Hfq.

Bacterial small RNAs (sRNAs) modulate gene expression by base-pairing with target mRNAs. Many sRNAs require the Sm-like RNA binding protein Hfq as a cofactor. Well-characterized interactions between DsrA sRNA and the rpoS mRNA leader were used to understand how Hfq stimulates sRNA pairing with target mRNAs.

The rpoS mRNA leader recruits Hfq to facilitate annealing with DsrA sRNA.

Small noncoding RNAs (sRNAs) regulate the response of bacteria to environmental stress in conjunction with the Sm-like RNA binding protein Hfq. DsrA sRNA stimulates translation of the RpoS stress response factor in Escherichia coli by base-pairing with the 5' leader of the rpoS mRNA and opening a stem-loop that represses translation initiation. We report that rpoS leader sequences upstream of this stem-loop greatly increase the sensitivity of rpoS mRNA to Hfq and DsrA.