Michelle N Smith-Frieday scite author profile

Transporter ProP mediates osmolyte accumulation in Escherichia coli cells exposed to high osmolality media. The cytoplasmic ProQ protein amplifies ProP activity by an unknown mechanism. The N- and C-terminal domains of ProQ are predicted to be structurally similar to known RNA chaperone proteins FinO and Hfq from E. coli. Here we demonstrate that ProQ is an RNA chaperone, binding RNA and facilitating both RNA strand exchange and RNA duplexing. Experiments performed with the isolated ProQ domains showed that the FinO-like domain serves as a high-affinity RNA-binding domain, whereas the Hfq-like domain is largely responsible for RNA strand exchange and duplexing. These data suggest that ProQ may regulate ProP production. Transcription of proP proceeds from RpoD- and RpoS-dependent promoters. Lesions at proQ affected ProP levels in an osmolality- and growth phase-dependent manner, decreasing ProP levels when proP was expressed from its own chromosomal promoters or from a heterologous plasmid-based promoter. Small RNA molecules are known to regulate cellular levels of sigma factor RpoS. ProQ did not act by changing RpoS levels since proQ lesions did not influence RpoS-dependent stationary phase thermotolerance and they affected ProP production and activity similarly in bacteria without and with an rpoS defect. Taken together, these results suggest that ProQ does not regulate proP transcription. It may act as an RNA-binding protein to regulate proP translation.

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Deletion of proU suppresses proQ phenotypes in Escherichia coli

Smith-Frieday

Kerr

Wood

2022

Preprint

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The ProQ protein interacts as an RNA chaperone with diverse RNA molecules in Escherichia coli. ProQ is implicated in the bacterial osmotic stress response. When the osmotic pressure is high, cells maintain their hydration by accumulating organic solutes denoted osmolytes. Transporters ProP and ProU (which is ProVWX) mediate osmolyte accumulation by Escherichia coli. Mutations at proQ impair ProP activity by reducing ProP levels (the ProQ transport phenotype) but do not impair ProU activity or reduce the level of ProX. The proQ− bacteria are longer than proQ+ bacteria during growth in either low or high salinity medium and they grow slowly at high salinity (the ProQ growth phenotype). In addition, spherical cells with crescent shaped, nucleic acid-rich foci appear and cells lyse (the ProQ morphological phenotypes). In this work, the proQ transport phenotype was suppressed by deletions of proU, or by an insertion of IS5 in proU, when proP was expressed from the chromosome or from the heterologous, plasmid-based PBAD promoter. A point mutation disrupting the Walker B motif of ProV inactivated ProU but did not suppress the transport phenotype. ProP activities and ProP levels varied in parallel, so proQ and proU act at the same level to regulate ProP expression. Deletion of the proU operon also suppressed the growth and morphological phenotypes. The proU locus may overlap the gene encoding a regulatory sRNA that acts with ProQ, contributing to cellular morphogenesis and osmotic stress tolerance, or the relationship between ProQ and proU may be indirect.

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Michelle N Smith-Frieday

ProQ Is an RNA Chaperone that Controls ProP Levels in Escherichia coli

Deletion of proU suppresses proQ phenotypes in Escherichia coli

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