Rho-dependent transcription termination is essential to prevent excessive genome-wide R-loops in
            <i>Escherichia coli</i>

Leela, J Krishna; Syeda, Aisha H.; Anupama, K.; Gowrishankar, J.

doi:10.1073/pnas.1213123110

Cited by 107 publications

(101 citation statements)

References 51 publications

(82 reference statements)

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“…The first antitermination mechanism, mediated by the N protein, was discovered in bacteriophage λ. Roberts proposed that λ N instructs RNAP to ignore Rho-dependent terminators in the early genes 97 , enabling transcription of the entire phage genome. Genetic screens for host proteins involved in λ N antitermination identified several N-utilization substances, NusA, NusB, NusE (the ribosomal protein S10) and NusG, that, together with N, assemble into a complex modifying RNAP to a termination-resistant form 98 .…”

Section: Nusg Family Of Regulatorsmentioning

confidence: 99%

NusG-Spt5 Proteins—Universal Tools for Transcription Modification and Communication

Tomar

Artsimovitch

2013

Chem. Rev.

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Section: Nusg Family Of Regulatorsmentioning

confidence: 99%

NusG-Spt5 Proteins—Universal Tools for Transcription Modification and Communication

Tomar

Artsimovitch

2013

Chem. Rev.

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“…11,12 Nevertheless, the average intensity of selection against such elements is weak, and, consequently, many spurious promoterlike sequences persist within populations. 13 Because uncontrolled transcription from genome-wide promoter-like sequences are potentially dangerous, bacteria have several systems in place to control the generation of spurious transcripts: (i) The histone-like nucleoid structuring protein (H-NS) suppresses transcription initiation from intragenic promoters, 14 (ii) the termination factor Rho and its cofactor NusG function in the termination of asRNA transcription, 15,16 and (iii) multiple RNases degrade aberrant RNAs. 17 A lack of asRNA conservation among closely related bacteria might not necessarily indicate lack of function because, as shown recently in Drosophila, functional genes can arise rapidly in a lineage-specific manner.…”

Section: Introductionmentioning

confidence: 99%

Pervasive transcription: detecting functional RNAs in bacteria

2014

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“…Several plasmids used in this study are derivatives of pMU575, which is an unstable single-copynumber plasmid with an IncW replicon and Tp r antibiotic marker: pHYD1613 (rne ϩ ) (41), pHYD2411 (Salmonella enterica serovar Typhimurium rho ϩ gene) (55), and pHYD2385 (Salmonella Typhimurium nusG ϩ ) (J. Krishna Leela, unpublished data). Other plasmids (with salient features in parentheses) employed include pHYD2373 (pWSK129 derivative carrying rne-R169Q,ΔCTH [encoding RNase E-R169Q,ΔCTH], the pSC101 replicon, Kan r , and Cm r ) (41), pRne-SG21 (pWSK129 derivative carrying rne-R169Q,529Δ [encoding RNase E-R169Q,529Δ], the pSC101 replicon, and Kan r ) (40), pCP20 (pSC101-based Ts replicon encoding Flp recombinase, Cm r , and Amp r ) (82), pJK537 (1.8-kb fragment carrying dksA cloned in pBR322, pMB1, and Amp r ) (83), and pHR53 (pJK537 derivative carrying truncated dksA gene, pMB1, and Amp r ) (84).…”

Section: Methodsmentioning

confidence: 99%

“…These findings were interpreted in the context of a model in which formation of excessive RNA-DNA hybrids (R-loops) in the rho and nusG mutants (55,56) provides an alternative means of mRNA degradation in the RNase E-deficient strains.…”

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confidence: 99%

Decreased Expression of Stable RNA Can Alleviate the Lethality Associated with RNase E Deficiency in Escherichia coli

Himabindu

Anupama

2017

J Bacteriol

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The endoribonuclease RNase E participates in mRNA degradation, rRNA processing, and tRNA maturation in Escherichia coli, but the precise reasons for its essentiality are unclear and much debated. The enzyme is most active on RNA substrates with a 5=-terminal monophosphate, which is sensed by a domain in the enzyme that includes residue R169; E. coli also possesses a 5=-pyrophosphohydrolase, RppH, that catalyzes conversion of 5=-terminal triphosphate to 5=-terminal monophosphate on RNAs. Although the C-terminal half (CTH), beyond residue approximately 500, of RNase E is dispensable for viability, deletion of the CTH is lethal when combined with an R169Q mutation or with deletion of rppH. In this work, we show that both these lethalities can be rescued in derivatives in which four or five of the seven rrn operons in the genome have been deleted. We hypothesize that the reduced stable RNA levels under these conditions minimize the need of RNase E to process them, thereby allowing for its diversion for mRNA degradation. In support of this hypothesis, we have found that other conditions that are known to reduce stable RNA levels also suppress one or both lethalities: (i) alterations in relA and spoT, which are expected to lead to increased basal ppGpp levels; (ii) stringent rpoB mutations, which mimic high intracellular ppGpp levels; and (iii) overexpression of DksA. Lethality suppression by these perturbations was RNase R dependent. Our work therefore suggests that its actions on the various substrates (mRNA, rRNA, and tRNA) jointly contribute to the essentiality of RNase E in E. coli. IMPORTANCEThe endoribonuclease RNase E is essential for viability in many Gramnegative bacteria, including Escherichia coli. Different explanations have been offered for its essentiality, including its roles in global mRNA degradation or in the processing of several tRNA and rRNA species. Our work suggests that, rather than its role in the processing of any one particular substrate, its distributed functions on all the different substrates (mRNA, rRNA, and tRNA) are responsible for the essentiality of RNase E in E. coli.KEYWORDS RNA processing and decay, RNase E, stable RNA expression, ppGpp, stringent rpoB mutants I n all organisms, mRNA degradation has to be precisely regulated in order to regulate protein expression levels, to modulate protein expression according to the changing environment, and to recycle ribonucleotides for new RNA synthesis (1-3). mRNA degradation in Escherichia coli begins with progressive endonucleolytic cleavages by RNase E (with a 5=-to-3= polarity) followed by exonucleolytic digestion of the resulting fragments by the 3=-5= exoribonucleases polynucleotide phosphorylase (PNPase), RNase R, and RNase II. The 2-to 5-nucleotide (nt)-long oligonucleotides so generated are then converted to mononucleotides by an oligoribonuclease, Orn (4-6).RNase E, which is essential for E. coli viability, is a crucial enzyme in mRNA decay, encoded by gene rne (7-9). It is a 1,061-amino-acid-long protein with catalytic ...

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Rho-dependent transcription termination is essential to prevent excessive genome-wide R-loops in Escherichia coli

Cited by 107 publications

References 51 publications

NusG-Spt5 Proteins—Universal Tools for Transcription Modification and Communication

NusG-Spt5 Proteins—Universal Tools for Transcription Modification and Communication

Pervasive transcription: detecting functional RNAs in bacteria

Decreased Expression of Stable RNA Can Alleviate the Lethality Associated with RNase E Deficiency in Escherichia coli

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