Abstract |
Studying the kinetics of translocation of mRNA and tRNAs on the translating ribosome is technically difficult since the rate-limiting steps involve large conformational changes without covalent bond formation or disruption. Here, we have developed a unique assay system for precise estimation of the full translocation cycle time at any position in any type of open reading frame (ORF). Using a buffer system optimized for high accuracy of tRNA selection together with high concentration of elongation factor G, we obtained in vivo compatible translocation rates. We found that translocation was comparatively slow early in the ORF and faster further downstream of the initiation codon. The maximal translocation rate decreased from the in vivo compatible value of 30 s(-1) at 1 mM free Mg2+ concentration to the detrimentally low value of 1 s(-1) at 6 mM free Mg2+ concentration. Thus, high and in vivo compatible accuracy of codon translation, as well as high and in vivo compatible translocation rate, required a remarkably low Mg2+ concentration. Finally, we found that the rate of translocation deep inside an ORF was not significantly affected upon variation of the standard free energy of interaction between a 6-nt upstream Shine-Dalgarno (SD)-like sequence and the anti-SD sequence of 16S rRNA in a range of 0-6 kcal/mol. Based on these experiments, we discuss the optimal choice of Mg2+ concentration for maximal fitness of the living cell by taking its effects on the accuracy of translation, the peptide bond formation rate and the translocation rate into account.
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Authors | Anneli Borg, Måns Ehrenberg |
Journal | Journal of molecular biology
(J Mol Biol)
Vol. 427
Issue 9
Pg. 1835-47
(May 08 2015)
ISSN: 1089-8638 [Electronic] Netherlands |
PMID | 25451025
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Copyright | Copyright © 2014. Published by Elsevier Ltd. |
Chemical References |
- Bacterial Proteins
- Codon, Initiator
- Peptide Elongation Factor G
- RNA, Messenger
- RNA, Ribosomal, 16S
- RNA, Transfer
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Topics |
- Bacterial Proteins
(metabolism)
- Codon, Initiator
(genetics, metabolism)
- Escherichia coli
(genetics, metabolism)
- Open Reading Frames
(genetics)
- Peptide Elongation Factor G
(genetics, metabolism)
- Protein Biosynthesis
(physiology)
- RNA, Messenger
(genetics, metabolism)
- RNA, Ribosomal, 16S
(genetics, metabolism)
- RNA, Transfer
(genetics, metabolism)
- Ribosomes
(genetics, metabolism)
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