The Many Virtues of tRNA-derived Stress-induced RNAs (tiRNAs): Discovering Novel Mechanisms of Stress Response and Effect on Human Health

Saikia, Mridusmita; Hatzoglou, Maria

doi:10.1074/jbc.r115.694661

Cited by 81 publications

(63 citation statements)

References 97 publications

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“…Another way to alter the pool of available tRNAs is by inducing their endonucleolytic cleavage, which occurs under oxidative stress conditions (Thompson and Parker, 2009). tRNA cleavage events give rise to small RNA species that may function as secondary stress signals (Saikia and Hatzoglou, 2015).…”

Section: Chemical Modifications Of Mrna Influence Translationmentioning

confidence: 99%

A Ribosomal Perspective on Proteostasis and Aging

2016

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Section: Chemical Modifications Of Mrna Influence Translationmentioning

confidence: 99%

A Ribosomal Perspective on Proteostasis and Aging

2016

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“…Later on it was shown that tiRNAs inhibit protein synthesis and induce the phospho-eIF2α-independent assembly of stress granules (SGs). The stress-induced tiRs, produced independent of the sex-hormone stimulated pathways, have been implicated by others in translation repression and as anti-apopotic factors, as reviewed in [51]. …”

Section: Biological Function Of Trfsmentioning

confidence: 99%

Biogenesis and Function of Transfer RNA-Related Fragments (tRFs)

Kumar

Kuscu

Dutta

2016

Trends in Biochemical Sciences

407

443

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Non-coding small RNAs arise from the various un-annotated and annotated regions of the genome. When they arise from annotated genes, the non-coding small RNAs are functionally different from the parent genes. This is a brief review of one class of non-coding small RNAs, tRNA related fragments (tRFs), which are generated from tRNA. tRFs have been suggested to play roles in cell proliferation, priming of viral reverse transcriptases, regulation of gene expression, RNA processing, modulation of the DNA damage response, tumor suppression, and neurodegeneration.

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“…This could be at least in part attributed to tRNA fragments produced most likely by an RNAse processing mature amino‐acylated tRNAs in halves that are abundant in phloem exudates of pumpkin (Zhang et al ., ). Notably, translational inhibition by tRNA halves also is observed in mammalian cell cultures (Thompson & Parker, ; Yamasaki et al ., ) probably caused by interfering with mRNA access to ribosomes (Saikia & Hatzoglou, ; Gebetsberger et al ., ). In higher eukaryotes, tRNA halves are produced by RNAse T2 class RNases that hydrolyze tRNAs in their anticodon loop and play a role in tumour‐induced angiogenesis (blood vessel formation) and developmental switches, and, in most species, are part of general stress responses (Jochl et al ., ; Fu et al ., ; Thompson & Parker, ).…”

Section: Classes Of Phloem Transported Rnas and Their Functionmentioning

confidence: 99%

Long distance RNA movement

Kehr¹,

2018

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Contents Summary29I.Introduction29II.Phloem as a conduit for macromolecules30III.Classes of phloem transported RNAs and their function32IV.Mode of RNA transport35V.Conclusions37Acknowledgements37References37 Summary In higher plants, small noncoding RNAs and large messenger RNA (mRNA) molecules are transported between cells and over long distances via the phloem. These large macromolecules are thought to get access to the sugar‐conducting phloem vessels via specialized plasmodesmata (PD). Analyses of the phloem exudate suggest that all classes of RNA molecules, including silencing‐induced RNAs (siRNAs), micro RNAs (miRNAs), transfer RNAs (tRNAs), ribosomal RNA (rRNAs) and mRNAs, are transported via the vasculature to distant tissues. Although the functions of mobile siRNAs and miRNAs as signalling molecules are well established, we lack a profound understanding of mobile mRNA function(s) in recipient cells and tissues, and how they are selected for transport. A surprisingly high number of up to thousands of mRNAs were described in diverse plant species such as cucumber, pumpkin, Arabidopsis and grapevine to move long distances over graft junctions to distinct body parts. In this review, we present an overview of the classes of mobile RNAs, the potential mechanisms facilitating RNA long‐distance transport, and the roles of mobile RNAs in regulating transcription and translation. Furthermore, we address potential function(s) of mobile protein‐encoding mRNAs with respect to their characteristics and evolutionary constraints.

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The Many Virtues of tRNA-derived Stress-induced RNAs (tiRNAs): Discovering Novel Mechanisms of Stress Response and Effect on Human Health

Cited by 81 publications

References 97 publications

A Ribosomal Perspective on Proteostasis and Aging

A Ribosomal Perspective on Proteostasis and Aging

Biogenesis and Function of Transfer RNA-Related Fragments (tRFs)

Long distance RNA movement

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