Search results for "Transfer RNA"

showing 10 items of 87 documents

tRNA-derived fragments: A new class of non-coding RNA with key roles in nervous system function and dysfunction

2021

tRNA-derived small RNAs (tsRNA) are a recently identified family of non-coding RNA that have been associated with a variety of cellular functions including the regulation of protein translation and gene expression. Recent sequencing and bioinformatic studies have identified the broad spectrum of tsRNA in the nervous system and demonstrated that this new class of non-coding RNA is produced from tRNA by specific cleavage events catalysed by ribonucleases such as angiogenin and dicer. Evidence is also accumulating that production of tsRNA is increased during disease processes where they regulate stress responses, proteostasis, and neuronal survival. Mutations to tRNA cleaving and modifying enz…

Nervous systemRNA UntranslatedAngiogeninGeneral NeuroscienceRNAComputational biologyBiologyNon-coding RNAmedicine.anatomical_structureProteostasisRNA TransferStress PhysiologicalProtein BiosynthesisGene expressionTransfer RNAmedicinebiology.proteinHumansNervous System DiseasesNeuroscienceDicerProgress in Neurobiology
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5' tRNA halves are highly expressed in the primate hippocampus and might sequence-specifically regulate gene expression

2020

Fragments of mature tRNAs have long been considered as mere degradation products without physiological function. However, recent reports show that tRNA-derived small RNAs (tsRNAs) play prominent roles in diverse cellular processes across a wide spectrum of species. Contrasting the situation in other small RNA pathways the mechanisms behind these effects appear more diverse, more complex, and are generally less well understood. In addition, surprisingly little is known about the expression profiles of tsRNAs across different tissues and species. Here, we provide an initial overview of tsRNA expression in different species and tissues, revealing very high levels of 5′ tRNA halves (5′ tRHs) pa…

PrimatesUntranslated regionSmall RNANeurogenesisBiologyHippocampusMice03 medical and health sciencesRNA TransferReportGene expressionAnimalsHumansRNA Small InterferingMolecular BiologyGene030304 developmental biologyRegulation of gene expression0303 health sciencesSequence Analysis RNAMechanism (biology)030302 biochemistry & molecular biologyArgonauteRatsCell biologyMicroRNAsHEK293 CellsGene Expression RegulationTransfer RNARNA Small UntranslatedRNA
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Molecular Characterization of Protease Producing Idiomarina Species Isolated from Peruvian Saline Environments

2019

ProteaseBiochemistrybiologyChemistrymedicine.medical_treatmentTransfer RNAmedicineIdiomarinabiology.organism_classificationApplied Microbiology and BiotechnologyMicrobiologySalineBiotechnologyMicrobiology and Biotechnology Letters
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Phosphorylation of Elp1 by Hrr25 is required for elongator-dependent tRNA modification in yeast.

2014

Elongator is a conserved protein complex comprising six different polypeptides that has been ascribed a wide range of functions, but which is now known to be required for modification of uridine residues in the wobble position of a subset of tRNAs in yeast, plants, worms and mammals. In previous work, we showed that Elongator's largest subunit (Elp1; also known as Iki3) was phosphorylated and implicated the yeast casein kinase I Hrr25 in Elongator function. Here we report identification of nine in vivo phosphorylation sites within Elp1 and show that four of these, clustered close to the Elp1 C-terminus and adjacent to a region that binds tRNA, are important for Elongator's tRNA modification…

ProteomicsSaccharomyces cerevisiae Proteinslcsh:QH426-470Saccharomyces cerevisiaeBiochemistryMolecular GeneticsRNA TransferGene Expression Regulation FungalMolecular Cell BiologyGeneticsFungal GeneticsPhosphorylationPost-Translational ModificationUridineMolecular BiologyAdaptor Proteins Signal TransducingHistone AcetyltransferasesAlanineSpectrometric Identification of ProteinsBiology and life sciencesCasein Kinase INucleotidesMicrobial GeneticsProteinsCell BiologyPeptide Elongation Factorslcsh:GeneticsPhenotypeMultiprotein ComplexesRNAMolecular ComplexesTransfer RNAAnticodonsResearch ArticlePLoS genetics
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Single-molecule FRET studies of counterion effects on the free energy landscape of human mitochondrial lysine tRNA.

2011

The folding energy landscape of RNA is greatly affected by interactions between the RNA and counterions that neutralize the backbone negative charges and may also participate in tertiary contacts. Valence, size, coordination number, and electron shell structure can all contribute to the energetic stabilization of specific RNA conformations. Using single-molecule fluorescence resonance energy transfer (smFRET), we have examined the folding properties of the RNA transcript of human mitochondrial tRNA(Lys), which possesses two different folded states in addition to the unfolded one under conditions of thermodynamic equilibrium. We have quantitatively analyzed the degree of RNA tertiary structu…

Quantitative Biology::BiomoleculesChemistryNucleic acid tertiary structureRNA MitochondrialRNA StabilityRNA ConformationRNAEnergy landscapeSingle-molecule FRETQuantitative Biology::GenomicsBiochemistryProtein tertiary structureCrystallographyFörster resonance energy transferCationsTransfer RNAFluorescence Resonance Energy TransferHumansNucleic Acid ConformationRNARNA Transfer LysThermodynamicsRNA MessengerBiochemistry
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Pseudouridine: Still mysterious, but never a fake (uridine)!

2014

International audience; Pseudouridine () is the most abundant of >150 nucleoside modifications in RNA. Although was discovered as the first modified nucleoside more than half a century ago, neither the enzymatic mechanism of its formation, nor the function of this modification are fully elucidated. We present the consistent picture of synthases, their substrates and their substrate positions in model organisms of all domains of life as it has emerged to date and point out the challenges that remain concerning higher eukaryotes and the elucidation of the enzymatic mechanism.

RNA MitochondrialSaccharomyces cerevisiaeReviewBiologyModified nucleosidesPseudouridine03 medical and health scienceschemistry.chemical_compound0302 clinical medicineRNA modificationEscherichia coliHumansRNA Processing Post-Transcriptional[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]Intramolecular TransferasesUridineMolecular Biology030304 developmental biology0303 health sciencesRNACell BiologyRNA Transfer Amino Acid-SpecificRibonucleoproteins Small NuclearUridineIsoenzymeschemistryBiochemistryRNA Ribosomal030220 oncology & carcinogenesisTransfer RNANucleic Acid ConformationRNARibosomesNucleosidePseudouridineSmall nuclear RNA[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologyRNA Guide Kinetoplastida
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Dynamic modulation of Dnmt2-dependent tRNA methylation by the micronutrient queuine

2015

Dnmt2 enzymes are cytosine-5 methyltransferases that methylate C38 of several tRNAs. We report here that the activities of two Dnmt2 homologs, Pmt1 from Schizosaccharomyces pombe and DnmA from Dictyostelium discoideum, are strongly stimulated by prior queuosine (Q) modification of the substrate tRNA. In vivo tRNA methylation levels were stimulated by growth of cells in queuine-containing medium; in vitro Pmt1 activity was enhanced on Q-containing RNA; and queuine-stimulated in vivo methylation was abrogated by the absence of the enzyme that inserts queuine into tRNA, eukaryotic tRNA-guanine transglycosylase. Global analysis of tRNA methylation in S. pombe showed a striking selectivity of Pm…

RNA Transfer AspTRNA modificationGuanineMethyltransferaseTRNA methylationbiologyQueuosineQueuineMethylationbiology.organism_classificationMethylationchemistry.chemical_compoundRNA TransferchemistryBiochemistrySchizosaccharomycesTransfer RNAGeneticsRNADictyosteliumDNA (Cytosine-5-)-MethyltransferasesMicronutrientsPentosyltransferasesSchizosaccharomyces pombe ProteinsSchizosaccharomycesNucleic Acids Research
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The Dnmt2 RNA methyltransferase homolog of Geobacter sulfurreducens specifically methylates tRNA-Glu

2014

Dnmt2 enzymes are conserved in eukaryotes, where they methylate C38 of tRNA-Asp with high activity. Here, the activity of one of the very few prokaryotic Dnmt2 homologs from Geobacter species (GsDnmt2) was investigated. GsDnmt2 was observed to methylate tRNA-Asp from flies and mice. Unexpectedly, it had only a weak activity toward its matching Geobacter tRNA-Asp, but methylated Geobacter tRNA-Glu with good activity. In agreement with this result, we show that tRNA-Glu is methylated in Geobacter while the methylation is absent in tRNA-Asp. The activities of Dnmt2 enzymes from Homo sapiens, Drosophila melanogaster, Schizosaccharomyces pombe and Dictyostelium discoideum for methylation of the …

RNA Transfer AsptRNA MethyltransferasesMethyltransferasebiologyNucleic Acid EnzymesRNAMethylationbiology.organism_classificationMethylationDictyostelium discoideumRNA Transfer GluSubstrate SpecificityMiceBiochemistryBacterial ProteinsTransfer RNASchizosaccharomyces pombeGeneticsAnimalsHumansNucleic Acid ConformationGeobacterGeobacter sulfurreducensGeobacterNucleic Acids Research
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2020

Abstract RNA modifications are a well-recognized way of gene expression regulation at the post-transcriptional level. Despite the importance of this level of regulation, current knowledge on modulation of tRNA modification status in response to stress conditions is far from being complete. While it is widely accepted that tRNA modifications are rather dynamic, such variations are mostly assessed in terms of total tRNA, with only a few instances where changes could be traced to single isoacceptor species. Using Escherichia coli as a model system, we explored stress-induced modulation of 2′-O-methylations in tRNAs by RiboMethSeq. This analysis and orthogonal analytical measurements by LC-MS s…

Regulation of gene expression0303 health sciencesTRNA modification2'-O-methylation030302 biochemistry & molecular biologyMutantSwarming motilityRNAMethylationBiologyCell biology03 medical and health sciencesTransfer RNAGenetics030304 developmental biologyNucleic Acids Research
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Inhibition of expression of natural UAG suppressor glutamine tRNA in HIV-infected human H9 cells in vitro by Avarol.

1988

HTLV-IIIB-infected H9 cells are shown to contain a high level of the natural UAG suppressor glutamine tRNA(UmUG Gln); this tRNA has been demonstrated to be required for the synthesis of Moloney murine leukemia virus (Mo-MuLV)-encoded protease. After cultivation of HTLV-IIIB-infected H9 cells with Avarol at a concentration (1 microgram/ml), previously found to protect the cells against the cytopathic effects of HTLV-III, an almost complete inhibition of the synthesis of the tRNA(UmUG Gln) was observed. Moreover, we obtained some evidence that the processing of the HTLV-III precursor protein p53 to p24 is inhibited by Avarol in infected cells, suggesting that the compound interferes with the …

ReticulocytesvirusesGlutamineImmunologyBiologyAntiviral AgentsViruslaw.inventionCell LineSuppression GeneticlawVirologyRNA Transfer GlnGene expressionAnimalsHumansCodonvirus diseasesHIVNucleic Acid HybridizationBiological activitybiochemical phenomena metabolism and nutritionRNA Transfer Amino Acid-SpecificCell Transformation ViralMolecular biologyIn vitroGlutamineTobacco Mosaic VirusInfectious DiseasesCell cultureProtein BiosynthesisTransfer RNASuppressorRNA ViralRabbitsSesquiterpenesAIDS research and human retroviruses
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