Drosophila tsRNAs preferentially suppress general translation machinery via antisense pairing and participate in cellular starvation response.
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The study suggests the tsRNA-mediated regulation might be crucial for the energy homeostasis and the metabolic adaptation in the cellular systems.Abstract:
Transfer RNA-derived small RNAs (tsRNAs) are an emerging class of small RNAs, yet their regulatory roles have not been well understood. Here we studied the molecular mechanisms and consequences of tsRNA-mediated regulation in Drosophila. By analyzing 495 public small RNA libraries, we demonstrate that most tsRNAs are conserved, prevalent and abundant in Drosophila. By carrying out mRNA sequencing and ribosome profiling of S2 cells transfected with single-stranded tsRNA mimics and mocks, we show that tsRNAs recognize target mRNAs through conserved complementary sequence matching and suppress target genes by translational inhibition. The target prediction suggests that tsRNAs preferentially suppress translation of the key components of the general translation machinery, which explains how tsRNAs inhibit the global mRNA translation. Serum starvation experiments confirm tsRNAs participate in cellular starvation responses by preferential targeting the ribosomal proteins and translational initiation or elongation factors. Knock-down of AGO2 in S2 cells under normal and starved conditions reveals a dependence of the tsRNA-mediated regulation on AGO2. We also validated the repressive effects of representative tsRNAs on cellular global translation and specific targets with luciferase reporter assays. Our study suggests the tsRNA-mediated regulation might be crucial for the energy homeostasis and the metabolic adaptation in the cellular systems.read more
Citations
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mTORC1 Phosphorylation Sites Encode Their Sensitivity to Starvation and Rapamycin
Seong A. Kang,Michael E. Pacold,Christopher L. Cervantes,Daniel Lim,Hua Jane Lou,Kathleen Ottina,Nathanael S. Gray,Benjamin E. Turk,Michael B. Yaffe,Michael B. Yaffe,David M. Sabatini +10 more
TL;DR: The hypothesis is that differences in substrate quality are one mechanism for allowing downstream effectors of mTORC1 to respond differentially to temporal and intensity changes in the levels of nutrients and growth factors as well as pharmacological inhibitors such as rapamycin.
Journal ArticleDOI
tRNA-Derived Small RNA: A Novel Regulatory Small Non-Coding RNA
TL;DR: The biogeneses of various tsRNAs are summarized, the emerging concepts regarding functions and mechanisms of action are presented, the potential application of ts RNAs in human diseases is highlighted, and the current problems and future research directions are put forward.
Journal ArticleDOI
The role of RNA modifications in the regulation of tRNA cleavage.
Shawn M. Lyons,Shawn M. Lyons,Marta M. Fay,Marta M. Fay,Pavel Ivanov,Pavel Ivanov,Pavel Ivanov +6 more
TL;DR: How tRNA modifications regulate the generation and activity of tRNA fragments is discussed, which can both protect tRNA from cleavage or promote their cleavage.
Journal ArticleDOI
Translational Control under Stress: Reshaping the Translatome.
TL;DR: In combination, signal transduction pathways and tRNA metabolism changes regulate translation during stress, resulting in adaptation and cell survival, and this review examines molecular mechanisms that regulate protein synthesis in response to stress.
Journal ArticleDOI
SPORTS1.0: A Tool for Annotating and Profiling Non-coding RNAs Optimized for rRNA- and tRNA-derived Small RNAs.
TL;DR: The sRNA annotation pipelineoptimized for rRNA- and tRNA-derived sRNAs (SPORTS1.0) is developed, which reveals that distinct signatures are present in tsRNAs and rsRNAs from different mouse cell types, and finds that compared to other sRNA species, ts RNAs bear the highest mismatch rate, which is consistent with their highly modified nature.
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