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1.
Int J Mol Sci ; 23(7)2022 Mar 26.
Article in English | MEDLINE | ID: mdl-35409013

ABSTRACT

6S RNA, a small non-coding RNA present in almost all bacteria, inhibits transcription via direct binding to RNA polymerase holoenzymes. The mechanism of 6S RNA action was investigated to a large extent in E. coli, however, lack of 6S RNA (ΔssrS) was demonstrated to be unfavorable but not essential for cell survival under various growth conditions. In the present study, we revealed, for the first time, a lethal phenotype of the ΔssrS strain in the presence of high concentrations of H2O2. This phenotype was rescued by complementation of the ssrS gene on a plasmid. We performed comparative qRT-PCR analyses on an enlarged set of mRNAs of genes associated with the oxidative stress response, allowing us to identify four genes known to be involved in this pathway (soxS, ahpC, sodA and tpx) that had decreased mRNA levels in the ΔssrS strain. Finally, we performed comparative proteomic analyses of the wild-type and ΔssrS strains, confirming that ΔssrS bacteria have reduced levels of the proteins AhpC and Tpx involved in H2O2 reduction. Our findings substantiate the crucial role of the riboregulator 6S RNA for bacterial coping with extreme stresses.


Subject(s)
Escherichia coli , Gene Expression Regulation, Bacterial , Bacteria/metabolism , DNA-Directed RNA Polymerases/metabolism , Escherichia coli/genetics , Escherichia coli/metabolism , Hydrogen Peroxide/metabolism , Hydrogen Peroxide/pharmacology , Oxidative Stress/genetics , Proteomics , RNA, Bacterial/genetics , RNA, Bacterial/metabolism , RNA, Messenger/genetics , RNA, Messenger/metabolism , RNA, Untranslated , Transcription, Genetic
2.
J Microbiol ; 58(11): 945-956, 2020 Nov.
Article in English | MEDLINE | ID: mdl-33125669

ABSTRACT

6S RNA, a conserved and abundant small non-coding RNA found in most bacteria, regulates gene expression by inhibiting RNA polymerase (RNAP) holoenzyme. 6S RNAs from α-proteobacteria have been studied poorly so far. Here, we present a first in-depth analysis of 6S RNAs from two α-proteobacteria species, Bradyrhizobium japonicum and Sinorhizobium meliloti. Although both belong to the order Rhizobiales and are typical nitrogen-fixing symbionts of legumes, their 6S RNA expression profiles were found to differ: B. japonicum 6S RNA accumulated in the stationary phase, thus being reminiscent of Escherichia coli 6S RNA, whereas S. meliloti 6S RNA level peaked at the transition to the stationary phase, similarly to Rhodobacter sphaeroides 6S RNA. We demonstrated in vitro that both RNAs have hallmarks of 6S RNAs: they bind to the σ70-type RNAP holoenzyme and serve as templates for de novo transcription of so-called product RNAs (pRNAs) ranging in length from ∼13 to 24 nucleotides, with further evidence of the synthesis of even longer pRNAs. Likewise, stably bound pRNAs were found to rearrange the 6S RNA structure to induce its dissociation from RNAP. Compared with B. japonicum 6S RNA, considerable conformational heterogeneity was observed for S. meliloti 6S RNA and its complexes with pRNAs, even though the two 6S RNAs share ∼75% sequence identity. Overall, our findings suggest that the two rhizobial 6S RNAs have diverged with respect to their regulatory impact on gene expression throughout the bacterial life cycle.


Subject(s)
Bradyrhizobium/genetics , RNA, Bacterial/genetics , RNA, Untranslated/genetics , Sinorhizobium meliloti/genetics , DNA-Directed RNA Polymerases/metabolism , Gene Expression Regulation, Bacterial , Nucleic Acid Conformation , Protein Binding , RNA Stability , Transcription, Genetic
3.
Biochimie ; 117: 87-99, 2015 Oct.
Article in English | MEDLINE | ID: mdl-25576829

ABSTRACT

6S RNA, a global regulator of transcription in bacteria, binds to housekeeping RNA polymerase (RNAP) holoenzymes to competitively inhibit transcription from DNA promoters. Bacillus subtilis encodes two 6S RNA homologs whose differential functions are as yet unclear. We constructed derivative strains of B. subtilis PY79 lacking 6S-1 RNA (ΔbsrA), 6S-2 RNA (ΔbsrB) or both (ΔbsrAB) to study the physiological role of the two 6S RNAs. We observed two growth phenotypes of mutant strains: (i) accelerated decrease of optical density toward extended stationary phase and (ii) faster outgrowth from stationary phase under alkaline stress conditions (pH 9.8). The first phenotype was observed for bacteria lacking bsrA, and even more pronounced for ΔbsrAB bacteria, but not for those lacking bsrB. The magnitude of the second phenotype was relatively weak for ΔbsrB, moderate for ΔbsrA and again strongest for ΔbsrAB bacteria. Whereas ΔbsrAB bacteria complemented with bsrB or bsrA (strains ΔbsrAB + B and ΔbsrAB + A) mimicked the phenotypes of the ΔbsrA and ΔbsrB strains, respectively, complementation with the gene ssrS encoding Escherichia coli 6S RNA failed to cure the "low stationary optical density" phenotype of the double mutant, despite ssrS expression, in line with previous findings. Finally, proteomics (two-dimensional differential gel electrophoresis, 2D-DIGE) of B. subtilis 6S RNA deletion strains unveiled a set of proteins that were expressed at higher levels particularly during exponential growth and preferentially in mutant strains lacking 6S-2 RNA. Several of these proteins are involved in metabolism and stress responses.


Subject(s)
Bacillus subtilis/genetics , Mutation , RNA, Bacterial/genetics , RNA, Untranslated/genetics , Bacillus subtilis/growth & development , Bacillus subtilis/metabolism , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Base Sequence , Blotting, Northern , Electrophoresis, Gel, Two-Dimensional , Escherichia coli/genetics , Gene Expression Regulation, Bacterial , Genetic Complementation Test , Hydrogen-Ion Concentration , Models, Molecular , Molecular Sequence Data , Nucleic Acid Conformation , Phenotype , Proteome/genetics , Proteome/metabolism , Proteomics/methods , RNA, Bacterial/chemistry , RNA, Bacterial/metabolism , RNA, Untranslated/chemistry , RNA, Untranslated/metabolism , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization , Temperature
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