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Translational initiation in E. coli occurs at the correct sites genome-wide in the absence of mRNA-rRNA base-pairing

Kazuki Saito, Rachel Green, Allen R. Buskirk

2020eLife109 citationsDOIOpen Access PDF

Abstract

show no correlation between the strength of an mRNA's SD motif and how efficiently it is translated. Performing profiling on ribosomes with altered anti-Shine-Dalgarno sequences, we reveal a genome-wide correlation between SD strength and ribosome occupancy that was previously masked by other contributing factors. Using the antibiotic retapamulin to trap initiation complexes at start codons, we find that the mutant ribosomes select start sites correctly, arguing that start sites are hard-wired for initiation through the action of other mRNA features. We show that A-rich sequences upstream of start codons promote initiation. Taken together, our genome-wide study reveals that SD motifs are not necessary for ribosomes to determine where initiation occurs, though they do affect how efficiently initiation occurs.

Topics & Concepts

Shine-Dalgarno sequenceRibosome profilingStart codonRibosomeBiologyGeneticsMessenger RNAGenomeEukaryotic translationProtein biosynthesisTranslational efficiencyComputational biologyCell biologyTranslation (biology)GeneRNARNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyBacteriophages and microbial interactions
Translational initiation in E. coli occurs at the correct sites genome-wide in the absence of mRNA-rRNA base-pairing | Litcius