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  • 1
    Language: English
    In: Molecular Cell, 04 February 2016, Vol.61(3), pp.352-363
    Description: Small RNAs (sRNAs) from conserved noncoding genes are crucial regulators in bacterial signaling pathways but have remained elusive in the Cpx response to inner membrane stress. Here we report that an alternative biogenesis pathway releasing the conserved mRNA 3′ UTR of stress chaperone CpxP as an ∼60-nt sRNA provides the noncoding arm of the Cpx response. This so-called CpxQ sRNA, generated by general mRNA decay through RNase E, acts as an Hfq-dependent repressor of multiple mRNAs encoding extracytoplasmic proteins. Both CpxQ and the Cpx pathway are required for cell survival under conditions of dissipation of membrane potential. Our discovery of CpxQ illustrates how the conversion of a transcribed 3′ UTR into an sRNA doubles the output of a single mRNA to produce two factors with spatially segregated functions during inner membrane stress: a chaperone that targets problematic proteins in the periplasm and a regulatory RNA that dampens their synthesis in the cytosol. Chao and Vogel discover that a small RNA cleaved off the 3′ end of an mRNA provides the elusive regulatory noncoding arm of the bacterial Cpx response to inner membrane stress.
    Keywords: Cpx Pathway ; Cpxp ; Cpxq ; 3′ Utr ; Hfq ; Rnase E ; Noncoding RNA ; Nhab ; Envelope Stress ; Membrane Potential ; Biology
    ISSN: 1097-2765
    E-ISSN: 1097-4164
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  • 2
    Language: English
    In: Genes & development, 01 November 2008, Vol.22(21), pp.2914-25
    Description: Noncoding RNA regulators have been implicated in almost all imaginable cellular processes. Here we review how regulatory small RNAs such as Spot42, SgrS, GlmY, and GlmZ and a cis-encoded ribozyme in glmS mRNA control sugar metabolism. Besides discussing the physiological implications, we show how the study of these molecules contributed to our understanding of the mechanisms and of general principles of RNA-based regulation. These include the post-transcriptional repression or activation of gene expression within polycistronic mRNAs; novel ribonucleoprotein complexes composed of small RNA, Hfq, and/or RNase E; and the hierarchical action of regulatory RNAs.
    Keywords: Carbohydrate Metabolism ; Bacterial Proteins -- Metabolism ; RNA, Bacterial -- Metabolism ; RNA, Untranslated -- Metabolism
    ISSN: 0890-9369
    E-ISSN: 15495477
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