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Pneumococcal RNase R globally impacts protein synthesis by regulating the amount of actively translating ribosomes.


ABSTRACT: Ribosomes are macromolecular machines that carry out protein synthesis. After each round of translation, ribosome recycling is essential for reinitiating protein synthesis. Ribosome recycling factor (RRF), together with elongation factor G (EF-G), catalyse the transient split of the 70S ribosome into subunits. This splitting is then stabilized by initiation factor 3 (IF3), which functions as an anti-association factor. The correct amount of these factors ensures the precise level of 70S ribosomes in the cell. RNase R is a highly conserved exoribonuclease involved in the 3' to 5' degradation of RNAs. In this work we show that pneumococcal RNase R directly controls the expression levels of frr, fusA and infC mRNAs, the corresponding transcripts of RRF, EF-G and IF3, respectively. We present evidences showing that accumulation of these factors leads to a decreased amount of 70S active particles, as demonstrated by the altered sucrose gradient ribosomal pattern in the RNase R mutant strain. Furthermore, the single deletion of RNase R is shown to have a global impact on protein synthesis and cell viability, leading to a ~50% reduction in bacterial CFU/ml. We believe that the fine-tuned regulation of these transcripts by RNase R is essential for maintaining the precise amount of active ribosomal complexes required for proper mRNA translation and thus we propose RNase R as a new auxiliary factor in ribosome reassociation. Considering the overall impact of RNase R on protein synthesis, one of the main targets of antibiotics, this enzyme may be a promising target for antimicrobial treatment.

SUBMITTER: Barria C 

PROVIDER: S-EPMC6380334 | biostudies-literature | 2019 Feb

REPOSITORIES: biostudies-literature

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