Abstract / Description of output
Natural selection favors efficient expression of encoded proteins, but the causes, mechanisms, and fitness consequences of
evolved coding changes remain an area of aggressive inquiry. We report a large-scale reversal in the relative translational
accuracy of codons across 12 fly species in the Drosophila/Sophophora genus. Because the reversal involves pairs of codons
that are read by the same genomically encoded tRNAs, we hypothesize, and show by direct measurement, that a tRNA
anticodon modification from guanosine to queuosine has coevolved with these genomic changes. Queuosine modification
is present in most organisms but its function remains unclear. Modification levels vary across developmental stages in D.
melanogaster, and, consistent with a causal effect, genes maximally expressed at each stage display selection for codons
that are most accurate given stage-specific queuosine modification levels. In a kinetic model, the known increased affinity of
queuosine-modified tRNA for ribosomes increases the accuracy of cognate codons while reducing the accuracy of nearcognate
codons. Levels of queuosine modification in D. melanogaster reflect bioavailability of the precursor queuine, which
eukaryotes scavenge from the tRNAs of bacteria and absorb in the gut. These results reveal a strikingly direct mechanism by
which recoding of entire genomes results from changes in utilization of a nutrient.
Original language | English |
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Article number | e1002015 |
Number of pages | 13 |
Journal | PLoS Biology |
Volume | 12 |
Issue number | 12 |
DOIs | |
Publication status | Published - 9 Dec 2014 |
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Edward Wallace
- School of Biological Sciences - Senior Lecturer
- Centre for Engineering Biology
Person: Academic: Research Active , Academic: Research Active (Research Assistant)