Publication date: 8 August 2017
Source:Cell Reports, Volume 20, Issue 6
Author(s): Tasos Gogakos, Miguel Brown, Aitor Garzia, Cindy Meyer, Markus Hafner, Thomas Tuschl
The participation of tRNAs in fundamental aspects of biology and disease necessitates an accurate, experimentally confirmed annotation of tRNA genes and curation of tRNA sequences. This has been challenging because RNA secondary structure, nucleotide modifications, and tRNA gene multiplicity complicate sequencing and mapping efforts. To address these issues, we developed hydro-tRNAseq, a method based on partial alkaline RNA hydrolysis that generates fragments amenable for sequencing. To identify transcribed tRNA genes, we further complemented this approach with photoactivatable crosslinking and immunoprecipitation (PAR-CLIP) of SSB/La, a conserved protein involved in pre-tRNA processing. Our results show that approximately half of all predicted tRNA genes are transcribed in human cells. We also report nucleotide modification sites and their order of introduction, and we identify tRNA leaders, trailers, and introns. By using complementary sequencing-based methodologies, we present a human tRNA atlas and determine expression levels of mature and processing intermediates of tRNAs in human cells.
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Teaser
Gogakos et al. describe two complementary high-throughput techniques for characterization of human tRNAs. They combine hydro-tRNAseq and PAR-CLIP of SSB/La to curate and quantify mature tRNAs, annotate pre-tRNAs, and report characteristics of POLR3 transcription. The study expands the resources and tools available for studying of tRNAs.http://ift.tt/2unHkm2
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