2019
DOI: 10.1101/869891
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tRNA fragments (tRFs) populations analysis in mutants affecting tRNAs processing and tRNA methylation

Abstract: tRNA fragments (tRFs) are a class of small non-coding RNAs (sncRNAs) derived from tRNAs. tRFs are highly abundant in many cell types including stem cells and cancer cells, and are found in all domains of life. Beyond translation control, tRFs have several functions ranging from transposon silencing to cell proliferation control. However, the analysis of tRFs presents specific challenges and their biogenesis is not well understood. They are very heterogeneous and highly modified by numerous post-transcriptional… Show more

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“…Since tRFs biogenesis remains obscure, we developed and describe a user-friendly tRFs-pipeline for Drosophila melanogaster based on Galaxy environment (tRFs-Galaxy), with workflows and tools that can be easily shared with the scientific community. To do so, we took advantage of several Drosophila datasets (15-29 nt) generated in our laboratories: Rpp30 mutants, which affect tRNA processing, and dTrm7_34 and dTrm7_32, which affect tRNA Nm methylation (Molla-Herman et al, 2015;Mollà-Herman et al, 2019;Angelova et al, 2020). We believe that this study will help to better understand the known pathways of tRFs biogenesis as well as to uncover new tRFs biogenesis factors and unexpected crosstalks between different RNA regulatory mechanisms, crucial for gene expression.…”
Section: (Supplementarymentioning
confidence: 99%
“…Since tRFs biogenesis remains obscure, we developed and describe a user-friendly tRFs-pipeline for Drosophila melanogaster based on Galaxy environment (tRFs-Galaxy), with workflows and tools that can be easily shared with the scientific community. To do so, we took advantage of several Drosophila datasets (15-29 nt) generated in our laboratories: Rpp30 mutants, which affect tRNA processing, and dTrm7_34 and dTrm7_32, which affect tRNA Nm methylation (Molla-Herman et al, 2015;Mollà-Herman et al, 2019;Angelova et al, 2020). We believe that this study will help to better understand the known pathways of tRFs biogenesis as well as to uncover new tRFs biogenesis factors and unexpected crosstalks between different RNA regulatory mechanisms, crucial for gene expression.…”
Section: (Supplementarymentioning
confidence: 99%