Inosine modifications in human tRNAs are incorporated at the precursor tRNA level

Torres, Adrián Gabriel; Piñeyro, David; Rodríguez-Escribà, Marta; Camacho, Noelia; Reina, Oscar; Saint-Léger, Adélaïde; Filonava, Liudmila; Batlle, Eduard; Pouplana, Lluı́s Ribas de

doi:10.1093/nar/gkv277

Cited by 91 publications

(134 citation statements)

References 48 publications

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“…The major drawback of RNAseq is that it often results in the detection of partially modified precursor tRNAs, rather than fully mature tRNAs 19,27 .…”

Section: Discussionmentioning

confidence: 99%

“…This is consistent with at least one of the aforementioned modifications inducing a detectable 'mutation' on the PCR amplicon. Of note, m 1 I37 has been reported to induce such a mutation as detected by RNAseq 15,19 . To show the robustness of the method using in vivo tRNA samples, we performed three independent replicates for this experiment ( Figure 7B).…”

Section: Validation Of the Methodsmentioning

confidence: 97%

“…After ruling out possible contamination of the PCR reaction with genomic DNA ( Figure 6B) we concluded that part of the obtained amplicons were derived from unmodified precursor tRNA species. It is well known that RT of fully matured tRNAs is challenging and that in complex RNA samples, there is a bias towards reverse transcribing precursor tRNAs over mature tRNAs 19,[27][28][29] is only partially cleaved ( Figure 7A). This is consistent with at least one of the aforementioned modifications inducing a detectable 'mutation' on the PCR amplicon.…”

Section: Validation Of the Methodsmentioning

confidence: 99%

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Detection of a Subset of Posttranscriptional Transfer RNA Modifications in Vivo with a Restriction Fragment Length Polymorphism-Based Method

et al. 2017

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Transfer RNAs (tRNAs) are among the most heavily modified RNA species. Posttranscriptional tRNA modifications (ptRMs) play fundamental roles in modulating tRNA structure and function, and are being increasingly linked to human physiology and disease. Detection of ptRMs is often challenging, expensive and laborious. Restriction Fragment Length Polymorphism (RFLP) analyses study the patterns of DNA cleavage after restriction enzyme treatment; and have been used for the qualitative detection of modified bases on messenger RNAs. It is known that some ptRMs induce specific and reproducible base 'mutations' when tRNAs are reverse transcribed. For example, inosine, which derives from the deamination of adenosine, is detected as a guanosine when an inosine-containing tRNA is reverse transcribed, PCR-amplified and sequenced. ptRMdependent base changes on RT-PCR amplicons generated as a consequence of the reverse transcription reaction might create or abolish endonuclease restriction sites. The suitability of RFLP for the detection and/or quantification of ptRMs has not been studied thus far. Here we show that different ptRMs can be detected at specific sites of different tRNA types by RFLP. For the examples studied we show that this approach is able to reliably estimate the modification status of the sample, a feature that can be useful in the study of the regulatory role of tRNA modifications on gene expression.3

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“…The major drawback of RNAseq is that it often results in the detection of partially modified precursor tRNAs, rather than fully mature tRNAs 19,27 .…”

Section: Discussionmentioning

confidence: 99%

Section: Validation Of the Methodsmentioning

confidence: 97%

Section: Validation Of the Methodsmentioning

confidence: 99%

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Detection of a Subset of Posttranscriptional Transfer RNA Modifications in Vivo with a Restriction Fragment Length Polymorphism-Based Method

et al. 2017

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“…This method presents several biases: ligation of adaptors is not equally efficient on all molecules, modifications cannot be detected, the fact of being a method based on RT-PCR means that just a few molecules can be fully sequenced. Nevertheless, several groups have used RNA sequencing datasets to detect modified tRNA residues, exploiting the fact that not all sequencing errors are technical artifacts, but, conversely, they often conceal biological marks of post-transcriptional RNA modifications sites (Ebhardt et al 2009;Iida et al 2009;Findeiss et al 2011;Ryvkin et al 2013;Torres et al 2015). By analyzing mismatches between sequencing reads and the genomic region where those reads mapped, as well as by analyzing special read patterns, they have been able to distinguish known and potentially novel post-transcriptional base modifications on tRNAs and, in some cases, also allowing a Brelative^quantification of tRNA species (Torres et al 2015).…”

Section: The State Of the Trna Population In The Cellmentioning

confidence: 99%

Protein folding and tRNA biology

2017

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Polypeptides can fold into tertiary structures while they are synthesized by the ribosome. In addition to the amino acid sequence, protein folding is determined by several factors within the cell. Among others, the folding pathway of a nascent polypeptide can be affected by transient interactions with other proteins, ligands, or the ribosome, as well as by the translocation through membrane pores. Particularly, the translation machinery and the population of tRNA under different physiological or adaptive responses can dramatically affect protein folding. This review summarizes the scientific evidence describing the role of translation kinetics and tRNA populations on protein folding and addresses current efforts to better understand tRNA biology. It is organized into three main parts, which are focused on: (i) protein folding in the cellular context; (ii) tRNA biology and the complexity of the tRNA population; and (iii) available methods and technical challenges in the characterization of tRNA pools. In this manner, this work illustrates the ways by which functional properties of proteins may be modulated by cellular tRNA populations.

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“…Based on the widespread differences between the RNA and DNA sequences, standard RNA-seq experiments have been used to identify numerous instances of A-to-I editing [107], and revealed that inosine is incorporated both at the pre-tRNA and mature tRNA level [108]. While this bioinformatics approach is extremely powerful, great care must be taken in the downstream analysis to discriminate true modifications from potential false positives [109].…”

Section: Overcoming the Hurdles: Towards Quantitative Profiling Of Trmentioning

confidence: 99%

tRNA biology in the omics era: Stress signalling dynamics and cancer progression

Orioli

2016

BioEssays

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Recent years have seen a burst in the number of studies investigating tRNA biology. With the transition from a gene‐centred to a genome‐centred perspective, tRNAs and other RNA polymerase III transcripts surfaced as active regulators of normal cell physiology and disease. Novel strategies removing some of the hurdles that prevent quantitative tRNA profiling revealed that the differential exploitation of the tRNA pool critically affects the ability of the cell to balance protein homeostasis during normal and stress conditions. Furthermore, growing evidence indicates that the adaptation of tRNA synthesis to cellular dynamics can influence translation and mRNA stability to drive carcinogenesis and other pathological disorders. This review explores the contribution given by genomics, transcriptomics and epitranscriptomics to the discovery of emerging tRNA functions, and gives insights into some of the technical challenges that still limit our understanding of the RNA polymerase III transcriptional machinery.

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Inosine modifications in human tRNAs are incorporated at the precursor tRNA level

Cited by 91 publications

References 48 publications

Detection of a Subset of Posttranscriptional Transfer RNA Modifications in Vivo with a Restriction Fragment Length Polymorphism-Based Method

Detection of a Subset of Posttranscriptional Transfer RNA Modifications in Vivo with a Restriction Fragment Length Polymorphism-Based Method

Protein folding and tRNA biology

tRNA biology in the omics era: Stress signalling dynamics and cancer progression

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