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The hibernating 100S complex is a target of ribosome-recycling factor and elongation factor G in Staphylococcus aureus

Arnab Basu, Kathryn E. Shields, Mee‐Ngan F. Yap

2020Journal of Biological Chemistry24 citationsDOIOpen Access PDF

Abstract

do not accumulate 100S ribosomes unless they are subjected to heat exposure, suggesting the existence of an alternative pathway during nonstressed conditions. Here, we provide biochemical and genetic evidence that two essential translation factors, ribosome-recycling factor (RRF) and GTPase elongation factor G (EF-G), synergistically split 100S ribosomes in a GTP-dependent but tRNA translocation-independent manner. We found that although HflX and the RRF/EF-G pair are functionally interchangeable, HflX is expressed at low levels and is dispensable under normal growth conditions. The bacterial RRF/EF-G pair was previously known to target only the post-termination 70S complexes; our results reveal a new role in the reversal of ribosome hibernation that is intimately linked to bacterial pathogenesis, persister formation, stress responses, and ribosome integrity.

Topics & Concepts

RibosomeCell biologyTranslation (biology)GTPaseProtein biosynthesisBiologyRibosome profilingChemistryBiochemistryRNAMessenger RNAGeneRNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyRNA modifications and cancer