OTTER, a new method quantifying absolute amounts of tRNAs

Abstract

ABSTRACTTo maintain optimal proteome, both codon choice of each mRNA and supply of aminoacyl-tRNAs are two principal factors in translation. Recent reports revealed that tRNAs are more dynamic in amount than we had expected. High-throughput methods such as RNA-Seq or microarray are versatile for comprehensive analyses of changes in individual tRNA amounts, but they suffer from lack of assessment of signal production efficiency of individual tRNA species. Thus, they are not the perfect choice to measure absolute amounts of tRNA. Here, we introduce a novel method for this purpose, oligonucleotide-directed three-primer terminal extension of RNA (OTTER), which employs fluorescence labeling at the 3’-terminus of a specific tRNA by optimized reverse primer extension and an assessment step of each labeling efficiency by Northern blotting. We quantified absolute amounts of 34 individual and 4 pairs of isoacceptor tRNAs out of the total 42 nuclear-encoded isoacceptors in the yeast Saccharomyces cerevisiae. We revealed that the amounts of tRNAs are in the range of 0.030–0.73 pmol/μg RNA in the yeast cells logarithmically grown in a rich glucose medium. The tRNA amounts seem to be regulated at the isoacceptor level by a few folds according to physiological growing conditions. Data obtained by OTTER are poorly correlated with those by simple RNA-Seq and only marginally with those by microarray. However, the OTTER data are good agreement with those by 2D-gel analysis of in vivo radiolabeled RNA samples. Thus, OTTER is a suitable method for quantifying absolute amounts of tRNAs in the isoacceptor resolution.