Your search keyword '"Papenfort K"' showing total 5 results

1. A dual-function RNA balances carbon uptake and central metabolism in Vibrio cholerae.

Author

Venkat K, Hoyos M, Haycocks JR, Cassidy L, Engelmann B, Rolle-Kampczyk U, von Bergen M, Tholey A, Grainger DC, and Papenfort K

Subjects

Bacterial Proteins metabolism, Biological Transport, Down-Regulation, Gene Expression Regulation, Bacterial, Genetic Testing, Open Reading Frames, Phenotype, RNA, Bacterial metabolism, Vibrio cholerae genetics, Carbon metabolism, Cholera Toxin metabolism, Citrate (si)-Synthase metabolism, RNA, Bacterial genetics, Vibrio cholerae metabolism

Abstract

Bacterial small RNAs (sRNAs) are well known to modulate gene expression by base pairing with trans-encoded transcripts and are typically non-coding. However, several sRNAs have been reported to also contain an open reading frame and thus are considered dual-function RNAs. In this study, we discovered a dual-function RNA from Vibrio cholerae, called VcdRP, harboring a 29 amino acid small protein (VcdP), as well as a base-pairing sequence. Using a forward genetic screen, we identified VcdRP as a repressor of cholera toxin production and link this phenotype to the inhibition of carbon transport by the base-pairing segment of the regulator. By contrast, we demonstrate that the VcdP small protein acts downstream of carbon transport by binding to citrate synthase (GltA), the first enzyme of the citric acid cycle. Interaction of VcdP with GltA results in increased enzyme activity and together VcdR and VcdP reroute carbon metabolism. We further show that transcription of vcdRP is repressed by CRP allowing us to provide a model in which VcdRP employs two different molecular mechanisms to synchronize central metabolism in V. cholerae., (© 2021 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2021

2. A conserved RNA seed-pairing domain directs small RNA-mediated stress resistance in enterobacteria.

Author

Peschek N, Hoyos M, Herzog R, Förstner KU, and Papenfort K

Subjects

Bacterial Outer Membrane Proteins genetics, Conserved Sequence, Gene Expression Regulation, Bacterial, Nucleic Acid Conformation, RNA, Bacterial chemistry, RNA, Bacterial genetics, Stress, Physiological, RNA, Small Untranslated chemistry, RNA, Small Untranslated genetics, Vibrio cholerae genetics

Abstract

Small regulatory RNAs (sRNAs) are crucial components of many stress response systems. The envelope stress response (ESR) of Gram-negative bacteria is a paradigm for sRNA-mediated stress management and involves, among other factors, the alternative sigma factor E (σ E ) and one or more sRNAs. In this study, we identified the MicV sRNA as a new member of the σ E regulon in Vibrio cholerae. We show that MicV acts redundantly with another sRNA, VrrA, and that both sRNAs share a conserved seed-pairing domain allowing them to regulate multiple target mRNAs. V. cholerae lacking σ E displayed increased sensitivity toward antimicrobials, and over-expression of either of the sRNAs suppressed this phenotype. Laboratory selection experiments using a library of synthetic sRNA regulators revealed that the seed-pairing domain of σ E -dependent sRNAs is strongly enriched among sRNAs identified under membrane-damaging conditions and that repression of OmpA is crucial for sRNA-mediated stress relief. Together, our work shows that MicV and VrrA act as global regulators in the ESR of V. cholerae and provides evidence that bacterial sRNAs can be functionally annotated by their seed-pairing sequences., (© 2019 The Authors. Published under the terms of the CC BY NC ND 4.0 license.)

Published

2019

3. A small RNA activates CFA synthase by isoform-specific mRNA stabilization.

Author

Fröhlich KS, Papenfort K, Fekete A, and Vogel J

Subjects

5' Untranslated Regions, Base Sequence, Enzyme Activation, Protein Biosynthesis, RNA chemistry, Salmonella enterica enzymology, Sequence Homology, Nucleic Acid, Methyltransferases metabolism, RNA physiology, RNA, Messenger metabolism

Abstract

Small RNAs use a diversity of well-characterized mechanisms to repress mRNAs, but how they activate gene expression at the mRNA level remains not well understood. The predominant activation mechanism of Hfq-associated small RNAs has been translational control whereby base pairing with the target prevents the formation of an intrinsic inhibitory structure in the mRNA and promotes translation initiation. Here, we report a translation-independent mechanism whereby the small RNA RydC selectively activates the longer of two isoforms of cfa mRNA (encoding cyclopropane fatty acid synthase) in Salmonella enterica. Target activation is achieved through seed pairing of the pseudoknot-exposed, conserved 5' end of RydC to an upstream region of the cfa mRNA. The seed pairing stabilizes the messenger, likely by interfering directly with RNase E-mediated decay in the 5' untranslated region. Intriguingly, this mechanism is generic such that the activation is equally achieved by seed pairing of unrelated small RNAs, suggesting that this mechanism may be utilized in the design of RNA-controlled synthetic circuits. Physiologically, RydC is the first small RNA known to regulate membrane stability.

Published

2013

4. Functional determinants of the quorum-sensing non-coding RNAs and their roles in target regulation.

Author

Shao Y, Feng L, Rutherford ST, Papenfort K, and Bassler BL

Subjects

Escherichia coli genetics, Escherichia coli metabolism, RNA, Bacterial genetics, RNA, Untranslated genetics, Vibrio genetics, Nucleic Acid Conformation, Quorum Sensing physiology, RNA, Bacterial metabolism, RNA, Untranslated metabolism, Regulon physiology, Vibrio metabolism

Abstract

Quorum sensing is a chemical communication process that bacteria use to control collective behaviours including bioluminescence, biofilm formation, and virulence factor production. In Vibrio harveyi, five homologous small RNAs (sRNAs) called Qrr1-5, control quorum-sensing transitions. Here, we identify 16 new targets of the Qrr sRNAs. Mutagenesis reveals that particular sequence differences among the Qrr sRNAs determine their target specificities. Modelling coupled with biochemical and genetic analyses show that all five of the Qrr sRNAs possess four stem-loops: the first stem-loop is crucial for base pairing with a subset of targets. This stem-loop also protects the Qrr sRNAs from RNase E-mediated degradation. The second stem-loop contains conserved sequences required for base pairing with the majority of the target mRNAs. The third stem-loop plays an accessory role in base pairing and stability. The fourth stem-loop functions as a rho-independent terminator. In the quorum-sensing regulon, Qrr sRNAs-controlled genes are the most rapid to respond to quorum-sensing autoinducers. The Qrr sRNAs are conserved throughout vibrios, thus insights from this work could apply generally to Vibrio quorum sensing.

Published

2013

5. An atlas of Hfq-bound transcripts reveals 3' UTRs as a genomic reservoir of regulatory small RNAs.

Author

Chao Y, Papenfort K, Reinhardt R, Sharma CM, and Vogel J

Subjects

Bacterial Proteins biosynthesis, Bacterial Proteins genetics, Bacterial Proteins physiology, Base Sequence, Carrier Proteins biosynthesis, Carrier Proteins genetics, Genes, Bacterial, Genes, Overlapping, Immunoprecipitation, Lipoproteins biosynthesis, Lipoproteins genetics, Molecular Sequence Data, Nucleic Acid Conformation, Protein Biosynthesis, Protein Structure, Tertiary, RNA, Bacterial metabolism, RNA, Messenger metabolism, Salmonella typhimurium growth & development, Salmonella typhimurium metabolism, Salmonella typhimurium pathogenicity, Sequence Alignment, Sequence Analysis, RNA, Sequence Homology, Amino Acid, Transcription, Genetic, Virulence genetics, 3' Untranslated Regions genetics, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial genetics, Host Factor 1 Protein metabolism, RNA Processing, Post-Transcriptional genetics, RNA, Bacterial genetics, RNA, Messenger genetics, RNA, Small Untranslated genetics, Salmonella typhimurium genetics, Transcription Factors physiology

Abstract

The small RNAs associated with the protein Hfq constitute one of the largest classes of post-transcriptional regulators known to date. Most previously investigated members of this class are encoded by conserved free-standing genes. Here, deep sequencing of Hfq-bound transcripts from multiple stages of growth of Salmonella typhimurium revealed a plethora of new small RNA species from within mRNA loci, including DapZ, which overlaps with the 3' region of the biosynthetic gene, dapB. Synthesis of the DapZ small RNA is independent of DapB protein synthesis, and is controlled by HilD, the master regulator of Salmonella invasion genes. DapZ carries a short G/U-rich domain similar to that of the globally acting GcvB small RNA, and uses GcvB-like seed pairing to repress translation of the major ABC transporters, DppA and OppA. This exemplifies double functional output from an mRNA locus by the production of both a protein and an Hfq-dependent trans-acting RNA. Our atlas of Hfq targets suggests that the 3' regions of mRNA genes constitute a rich reservoir that provides the Hfq network with new regulatory small RNAs.

Published

2012