0000000000294000

AUTHOR

Isabel Fast

showing 4 related works from this author

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
researchProduct

5’ tRNA halves are highly expressed in the primate hippocampus and sequence-specifically regulate gene expression

2019

AbstractFragments of mature tRNAs have long been considered as mere degradation products without physiological function. However, recent reports show that tRNA fragments (tRFs) 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 tRFs across different tissues and species. Here, we provide an initial overview of tRF expression in different species and tissues, revealing very high tRF-levels particularly in the primate hippoc…

Untranslated region0303 health sciencesSmall RNAMechanism (biology)HippocampusBiologyCell biology03 medical and health sciences0302 clinical medicineDownregulation and upregulationGene expressionTransfer RNAGene030217 neurology & neurosurgery030304 developmental biology
researchProduct

Temperature-dependent small RNA expression in Drosophila melanogaster

2018

Temperature has a major impact on gene expression in ectotherms. But until recently, it was not clear in which way, if any, small non-coding RNAs such as miRNAs or piRNAs contribute to thermosensitive gene regulation. We have recently shown that temperature-responsive miRNAs in Drosophila drive adaptation to different ambient temperatures on the transcriptome level. Moreover, we demonstrated that higher temperatures lead to a more efficient piRNA-dependent transposon silencing, possibly due to heat-induced unfolding of RNA secondary structures. In this commentary, we will dwell upon particular interesting aspects connected to our findings, hoping that our point of view may encourage other s…

0301 basic medicineSmall RNAComputational biologyEpigenesis GeneticEvolution MolecularTranscriptome03 medical and health sciencesStress PhysiologicalmicroRNAGene expressionAnimalsDrosophila ProteinsGene silencingRNA Small InterferingPoint of ViewMolecular BiologyRegulation of gene expressionbiologyGene Expression ProfilingTemperatureRNACell Biologybiology.organism_classificationMicroRNAsDrosophila melanogaster030104 developmental biologyGene Expression RegulationDNA Transposable ElementsDrosophila melanogasterRNA Biology
researchProduct

Temperature-responsive miRNAs in Drosophila orchestrate adaptation to different ambient temperatures

2017

The majority of Drosophila genes are expressed in a temperature-dependent manner, but the way in which small RNAs may contribute to this effect is completely unknown as we currently lack an idea of how small RNA transcriptomes change as a function of temperature. Applying high-throughput sequencing techniques complemented by quantitative real-time PCR experiments, we demonstrate that altered ambient temperature induces drastic but reversible changes in sequence composition and total abundance of both miRNA and piRNA populations. Further, mRNA sequencing reveals that the expression of miRNAs and their predicted target transcripts correlates inversely, suggesting that temperature-responsive m…

0301 basic medicineGeneticsSmall RNARNAPiwi-interacting RNABiologyTranscriptome03 medical and health sciences030104 developmental biologyMRNA SequencingGene expressionmicroRNAMolecular BiologyGeneRNA
researchProduct