Gene autoregulation by 3’ UTR-derived bacterial small RNAs

Hoyos, Mona; Huber, Michaela; Förstner, Konrad U.; Papenfort, Kai

doi:10.7554/elife.58836

Cited by 48 publications

(49 citation statements)

References 94 publications

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“…In addition, other RNA-seq based techniques that were envisioned for the identification of RNA-RNA and RNA-protein interactions and ribonuclease processing sites have also provided the scientific community with novel putative functional 3′UTR candidates. For example, the RIL-seq (RNA interaction by ligation and sequencing), RIP-seq (RNA immunoprecipitation followed by RNA sequencing), TIER-seq (transiently-inactivating-an-endoribonuclease-followed-by-RNA-seq) and CLASH (UV cross-linking, ligation, and sequencing of hybrids) methods have revealed dozens of sRNAs candidates originated from 3′UTRs of several enterobacterial species (Holmqvist et al, 2016 , 2018 ; Melamed et al, 2016 , 2019 ; Chao et al, 2017 ; Hoyos et al, 2020 ; Huber et al, 2020 ; Iosub et al, 2020 ). Combining these technologies with those dedicated to 5′ and 3′ end mapping (Sharma et al, 2010 ; Dar et al, 2016 ) would complete the bacterial transcriptomic landscapes and their RNA-RNA and RNA-protein network interactions, which are essential for understanding post-transcriptional regulatory mechanisms, including those involving 3′UTRs.…”

Section: Identification Of 3′utrs In Bacteriamentioning

confidence: 99%

“…Besides, 3′UTR-derived sRNAs also participate in autoregulating the expression of the genes encoded in the same mRNAs that generate them. For example, the V. cholerae OppZ and CarZ sRNAs, which originate from the oppABCDF and carAB operons upon RNase E processing, respectively, base-pair with their own transcripts, leading to translation initiation inhibition and followed by Rho-dependent transcription termination (Hoyos et al, 2020 ). It is noteworthy that most of 3′UTR-derived sRNAs modulate the expression of proteins with functions related to the genes they originate from.…”

Section: ′Utrs As Modulators Of Gene Expressionmentioning

confidence: 99%

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Bacterial 3′UTRs: A Useful Resource in Post-transcriptional Regulation

Menendez-Gil

Toledo‐Arana²

2021

Front. Mol. Biosci.

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Bacterial messenger RNAs (mRNAs) are composed of 5′ and 3′ untranslated regions (UTRs) that flank the coding sequences (CDSs). In eukaryotes, 3′UTRs play key roles in post-transcriptional regulatory mechanisms. Shortening or deregulation of these regions is associated with diseases such as cancer and metabolic disorders. Comparatively, little is known about the functions of 3′UTRs in bacteria. Over the past few years, 3′UTRs have emerged as important players in the regulation of relevant bacterial processes such as virulence, iron metabolism, and biofilm formation. This MiniReview is an update for the different 3′UTR-mediated mechanisms that regulate gene expression in bacteria. Some of these include 3′UTRs that interact with the 5′UTR of the same transcript to modulate translation, 3′UTRs that are targeted by specific ribonucleases, RNA-binding proteins and small RNAs (sRNAs), and 3′UTRs that act as reservoirs of trans-acting sRNAs, among others. In addition, recent findings regarding a differential evolution of bacterial 3′UTRs and its impact in the species-specific expression of orthologous genes are also discussed.

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Section: Identification Of 3′utrs In Bacteriamentioning

confidence: 99%

Section: ′Utrs As Modulators Of Gene Expressionmentioning

confidence: 99%

Bacterial 3′UTRs: A Useful Resource in Post-transcriptional Regulation

Menendez-Gil

Toledo‐Arana²

2021

Front. Mol. Biosci.

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“…However, the analysis used to identify these sRNAs searched for orphan Hfq-binding sites that were >100 nt from any annotated coding region. Recently, the 3’UTR of coding genes have emerged as a significant source of regulatory sRNAs, and have been found to regulate the outer membrane stress response, nitrate transport, and acetate and carbon metabolism ( Chao et al., 2012 ; Chao and Vogel, 2016 ; De Mets et al., 2019 ; Hoyos et al., 2020 ; Iosub et al., 2020b ; Wang et al., 2020 ). Taken together, this suggests that there may be many more pathotype-specific sRNAs than we currently appreciate, and it will be intriguing to investigate how these 3’UTR, 5’UTR, and recently identified CDS-encoded sRNAs may affect bacterial virulence.…”

Section: Where To From Here?mentioning

confidence: 99%

“…Since their initial discovery from intergenic regions of genes however, a slew of novel biogenesis pathways and regulatory mechanisms for sRNAs have been uncovered. sRNAs have since been found to originate from 3’ UTRs ( Chao et al., 2012 ; Chao and Vogel, 2016 ; De Mets et al., 2019 ; Hoyos et al., 2020 ; Wang et al., 2020 ), 5’UTRs ( Vanderpool and Gottesman, 2004 ; Thomason et al., 2019 ), protein-coding transcripts ( Dar and Sorek, 2018 ), and pre-tRNAs ( Lalaouna et al., 2015 ), and can effect regulation of their targets by modulating Rho-dependent termination ( Sedlyarova et al., 2016 ; Silva et al., 2019 ; Hoyos et al., 2020 ), ribosome loading ( Jagodnik et al., 2017 ; Romilly et al., 2019 ) and sponging interactions ( Tree et al., 2014 ; Lalaouna et al., 2015 ; Miyakoshi et al., 2015 )…”

Section: Introductionmentioning

confidence: 99%

Small RNA Regulation of Virulence in Pathogenic Escherichia coli

Tree

2021

Front. Cell. Infect. Microbiol.

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Enteric and extraintestinal pathotypes of Escherichia coli utilize a wide range of virulence factors to colonize niches within the human body. During infection, virulence factors such as adhesins, secretions systems, or toxins require precise regulation and coordination to ensure appropriate expression. Additionally, the bacteria navigate rapidly changing environments with fluctuations in pH, temperature, and nutrient levels. Enteric pathogens utilize sophisticated, interleaved systems of transcriptional and post-transcriptional regulation to sense and respond to these changes and modulate virulence gene expression. Regulatory small RNAs and RNA-binding proteins play critical roles in the post-transcriptional regulation of virulence. In this review we discuss how the mosaic genomes of Escherichia coli pathotypes utilize small RNA regulation to adapt to their niche and become successful human pathogens.

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“…Many cellular oligonucleotides are products of endonuclease cleavage (Davis and Waldor, 2007;Papenfort et al, 2009;Chao et al, 2017), and some short fragments of tRNAs are proven to be functional (Lalaouna et al, 2015a,b;Diebel et al, 2016;Swiatowy and Jagodzińśki, 2018). In recent years it has been also witnessed for both bacteria and higher organisms that 3 ′ -terminal regions of mRNAs can also be sources of short regulatory RNAs specifically processed by RNAse E (Eisenhardt et al, 2018;Miyakoshi et al, 2019;Hoyos et al, 2020;Wang et al, 2020). Thus, it is likely that the processing of many RNAs with well-established function plays a specific role in living cells by providing short oligonucleotides for diverse regulatory networks.…”

Section: Introductionmentioning

confidence: 99%

Suppression of Escherichia coli Growth Dynamics via RNAs Secreted by Competing Bacteria

Markelova

Glazunova

Alikina

et al. 2021

Front. Mol. Biosci.

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With the discovery of secreted RNAs, it has become apparent that the biological role of regulatory oligonucleotides likely goes beyond the borders of individual cells. However, the mechanisms of their action are still comprehended only in general terms and mainly for eukaryotic microRNAs, which can interfere with mRNAs even in distant recipient cells. It has recently become clear that bacterial cells lacking interference systems can also respond to eukaryotic microRNAs that have targets in their genomes. However, the question of whether bacteria can perceive information transmitted by oligonucleotides secreted by other prokaryotes remained open. Here we evaluated the fraction of short RNAs secreted by Escherichia coli during individual and mixed growth with Rhodospirillum rubrum or Prevotella copri, and found that in the presence of other bacteria E. coli tends to excrete oligonucleotides homologous to alien genomes. Based on this observation, we selected four RNAs secreted by either R. rubrum or P. copri, together with one E. coli-specific oligonucleotide. Both fragments of R. rubrum 23S-RNA suppressed the growth of E. coli. Of the two fragments secreted by P. copri, one abolished the stimulatory effect of E. coli RNA derived from the 3′-UTR of ProA mRNA, while the other inhibited bacterial growth only in the double-stranded state with complementary RNA. The ability of two RNAs secreted by cohabiting bacteria to enter E. coli cells was demonstrated using confocal microscopy. Since selected E. coli-specific RNA also affected the growth of this bacterium, we conclude that bacterial RNAs can participate in inter- and intraspecies signaling.

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Gene autoregulation by 3’ UTR-derived bacterial small RNAs

Cited by 48 publications

References 94 publications

Bacterial 3′UTRs: A Useful Resource in Post-transcriptional Regulation

Bacterial 3′UTRs: A Useful Resource in Post-transcriptional Regulation

Small RNA Regulation of Virulence in Pathogenic Escherichia coli

Suppression of Escherichia coli Growth Dynamics via RNAs Secreted by Competing Bacteria

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