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Ribosome assembly cofactors are widely conserved across all domains of life. One such group, the ribosome-associated GTPases (RA-GTPase), act as molecular switches to coordinate ribosome assembly. We previously identified the Staphylococcus aureus RA-GTPase Era as a target for the stringent response...

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Published in:PLoS genetics 2019-08, Vol.15 (8)
Main Authors: Irving, Sophie E, Bennison, Daniel J, Corrigan, Rebecca M, Wood, Alison
Format: Article
Language:English
Subjects:
Analysis
Cold adaptation
Genetic aspects
GTPases
Identification and classification
Influence
Methods
Ribosomal RNA
RNA processing
Staphylococcus aureus
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creator Irving, Sophie E
Bennison, Daniel J
Corrigan, Rebecca M
Wood, Alison
description Ribosome assembly cofactors are widely conserved across all domains of life. One such group, the ribosome-associated GTPases (RA-GTPase), act as molecular switches to coordinate ribosome assembly. We previously identified the Staphylococcus aureus RA-GTPase Era as a target for the stringent response alarmone (p)ppGpp, with binding leading to inhibition of GTPase activity. Era is highly conserved throughout the bacterial kingdom and is essential in many species, although the function of Era in ribosome assembly is unclear. Here we show that Era is not essential in S. aureus but is important for 30S ribosomal subunit assembly. Protein interaction studies reveal that Era interacts with the 16S rRNA endonuclease YbeY and the DEAD-box RNA helicase CshA. We determine that both Era and CshA are required for growth at suboptimal temperatures and rRNA processing. Era and CshA also form direct interactions with the (p)ppGpp synthetase Rel.sub.Sau, with Rel.sub.Sau positively impacting the GTPase activity of Era but negatively affecting the helicase activity of CshA. We propose that in its GTP-bound form, Era acts as a hub protein on the ribosome to direct enzymes involved in rRNA processing/degradation and ribosome subunit assembly to their site of action. This activity is impeded by multiple components of the stringent response, contributing to the slowed growth phenotype synonymous with this stress response pathway.
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subjects Analysis
Cold adaptation
Genetic aspects
GTPases
Identification and classification
Influence
Methods
Ribosomal RNA
RNA processing
Staphylococcus aureus
title The
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