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Inactivation of RNase P in <i>Escherichia coli</i> significantly changes post‐transcriptional RNA metabolism

Bijoy K. Mohanty, Sidney R. Kushner

2021Molecular Microbiology19 citationsDOIOpen Access PDF

Abstract

Ribonuclease P (RNase P), which is required for the 5'-end maturation of tRNAs in every organism, has been shown to play a limited role in other aspects of RNA metabolism in Escherichia coli. Using RNA-sequencing (RNA-seq), we demonstrate that RNase P inactivation affects the abundances of ~46% of the expressed transcripts in E. coli and provide evidence that its essential function is its ability to generate pre-tRNAs from polycistronic tRNA transcripts. The RNA-seq results agreed with the published data and northern blot analyses of 75/83 transcripts (mRNAs, sRNAs, and tRNAs). Changes in transcript abundances in the RNase P mutant also correlated with changes in their half-lives. Inactivating the stringent response did not alter the rnpA49 phenotype. Most notably, increases in the transcript abundances were observed for all genes in the cysteine regulons, multiple toxin-antitoxin modules, and sigma S-controlled genes. Surprisingly, poly(A) polymerase (PAP I) modulated the abundances of ~10% of the transcripts affected by RNase P. A comparison of the transcriptomes of RNase P, RNase E, and RNase III mutants suggests that they affect distinct substrates. Together, our work strongly indicates that RNase P is a major player in all aspects of post-transcriptional RNA metabolism in E. coli.

Topics & Concepts

BiologyRNase PRNase MRPRNADegradosomeRNase HTransfer RNARibonuclease IIIEscherichia coliRNase PHMolecular biologyGeneNon-coding RNAMessenger RNAMutantGeneticsRNA interferenceRNA and protein synthesis mechanismsRNA modifications and cancerBacterial Genetics and Biotechnology
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