Insights into the faithful translation of the genetic code by the ribosome
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Date
2011-03
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
RNA Journal (Publication of the RNA Society)
Abstract
In order to synthesize functional proteins from mRNA, the ribosome must correctly pair each 3 base mRNA codon with the corresponding 3 base anticodon of the cognate (correct) aminoacyl(aa)-tRNA. While this process largely depends upon codon-anticodon base-pairing, the ribosome’s job is complicated by the fact that there exists a large cellular pool of near-cognate aa-tRNAs capable of forming partial matches with the codon being translated, and these vastly outnumber cognate aa-tRNAs. The ribosome maintains high accuracy during translation by breaking the aa-tRNA selection process into two phases, initial selection and proofreading, increasing the accuracy by providing two opportunities for near-cognate aa-tRNA to be rejected. These two phases are separated by the irreversible hydrolysis of GTP by elongation factor (EF)-Tu, which delivers the aa-tRNA to the ribosome. Many potent antibiotics target aa-tRNA selection and increase translation errors.
To investigate the mechanism of aa-tRNA selection we used a genetic screen to isolate 34 mutations in the 16S ribosomal (r)RNA that increase translation errors. These mutations cluster around the periphery of the shoulder domain of the small 30S ribosomal subunit, suggesting that a conformational change in this domain is critical for aa-tRNA selection. In vitro, these mutations increase the rate of EF-Tu GTP hydrolysis, similar to error inducing antibiotics. The locations of many mutations are distinct from the binding sites of these antibiotics and may suggest additional areas for drug targets. These findings challenge several conventional beliefs about the mechanism of this ubiquitous process. Additional characterization of these mutations may provide new insights into how the ribosome maintains the accuracy of translation.
Description
Biological Sciences: 3rd Place (The Ohio State University Edward F. Hayes Graduate Research Forum)
Keywords
Ribosome, tRNA, Translation, Genetic code
Citation
McClory, S.P., Leisring, J.M., Qin, D. & Fredrick, K. Missense suppressor mutations in 16S rRNA reveal the importance of helices h8 and h14 in aminoacyl-tRNA selection. RNA 16, 1925-1934 (2010).