Affiliation:
1. The Burnett School of Biomedical Sciences, College of Medicine, The University of Central Florida, Orlando, Florida, USA
Abstract
ABSTRACT
Ribosomal protein L9 is a component of all eubacterial ribosomes, yet deletion strains display only subtle growth defects. Although L9 has been implicated in helping ribosomes maintain translation reading frame and in regulating translation bypass, no portion of the ribosome-bound protein seems capable of contacting either the peptidyltransferase center or the decoding center, so it is a mystery how L9 can influence these important processes. To reveal the physiological roles of L9 that have maintained it in evolution, we identified mutants of
Escherichia coli
that depend on L9 for fitness. In this report, we describe a class of L9-dependent mutants in the ribosome biogenesis GTPase Der (EngA/YphC). Purified mutant proteins were severely compromised in their GTPase activities, despite the fact that the mutations are not present in GTP hydrolysis sites. Moreover, although L9 and YihI complemented the slow-growth
der
phenotypes, neither factor could rescue the GTPase activities
in vitro
. Complementation studies revealed that the N-terminal domain of L9 is necessary and sufficient to improve the fitness of these Der mutants, suggesting that this domain may help stabilize compromised ribosomes that accumulate when Der is defective. Finally, we employed a targeted degradation system to rapidly deplete L9 from a highly compromised
der
mutant strain and show that the L9-dependent phenotype coincides with a cell division defect.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Cited by
9 articles.
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