Search results for "m5C"

showing 4 items of 4 documents

Statistically robust methylation calling for whole-transcriptome bisulfite sequencing reveals distinct methylation patterns for mouse RNAs

2017

AbstractCytosine-5 RNA methylation plays an important role in several biologically and pathologically relevant processes. However, owing to methodological limitations, the transcriptome-wide distribution of this mark has remained largely unknown. We previously established RNA bisulfite sequencing as a method for the analysis of RNA cytosine-5 methylation patterns at single-base resolution. More recently, next-generation sequencing has provided opportunities to establish transcriptome-wide maps of this modification. Here we present a computational approach that integrates tailored filtering and data-driven statistical modeling to eliminate many of the artifacts that are known to be associate…

0301 basic medicineRNA methylationBisulfite sequencingMethodComputational biologyBiologyTranscriptome03 medical and health sciencesMiceRNA modificationsRNA TransferRNA Ribosomal 28SGeneticsm5CAnimalsHumansRNA MessengerRNA Processing Post-TranscriptionalRNA-Directed DNA MethylationBisulfite sequencingGenetics (clinical)GeneticsHigh-Throughput Nucleotide SequencingRNAMethyltransferasesMethylationRibosomal RNADNA Methylation030104 developmental biologyTransfer RNADNA methylationIllumina Methylation AssayTranscriptome
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Translational adaptation to heat stress is mediated by RNA 5‐methylcytosine in Caenorhabditis elegans

2021

Abstract Methylation of carbon‐5 of cytosines (m5C) is a post‐transcriptional nucleotide modification of RNA found in all kingdoms of life. While individual m5C‐methyltransferases have been studied, the impact of the global cytosine‐5 methylome on development, homeostasis and stress remains unknown. Here, using Caenorhabditis elegans, we generated the first organism devoid of m5C in RNA, demonstrating that this modification is non‐essential. Using this genetic tool, we determine the localisation and enzymatic specificity of m5C sites in the RNome in vivo. We find that NSUN‐4 acts as a dual rRNA and tRNA methyltransferase in C. elegans mitochondria. In agreement with leucine and proline bein…

Hot TemperatureProlineRibosomeGeneral Biochemistry Genetics and Molecular BiologyArticle03 medical and health sciencesNSUNCytosine0302 clinical medicineRNA modificationsLeucinem5CAnimalsRNA Processing Post-TranscriptionalCaenorhabditis elegansMolecular BiologytRNACaenorhabditis elegansprotein translation030304 developmental biologyGene Editing0303 health sciencesGeneral Immunology and MicrobiologybiologyGeneral NeuroscienceTRNA MethyltransferaseRNATranslation (biology)MethylationArticlesMethyltransferasesRibosomal RNAbiology.organism_classificationRNA BiologyAdaptation Physiological5‐methylcytosineCell biologyMitochondriatranslation efficiencyProtein BiosynthesisTransfer RNA5-MethylcytosineRNACRISPR-Cas SystemsRibosomes030217 neurology & neurosurgeryHeat-Shock ResponseThe EMBO Journal
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RNA cytosine methylation by Dnmt2 and NSun2 promotes tRNA stability and protein synthesis.

2012

The function of cytosine-C5 methylation, a widespread modification of tRNAs, has remained obscure, particularly in mammals. We have now developed a mouse strain defective in cytosine-C5 tRNA methylation, by disrupting both the Dnmt2 and the NSun2 tRNA methyltransferases. Although the lack of either enzyme alone has no detectable effects on mouse viability, double mutants showed a synthetic lethal interaction, with an underdeveloped phenotype and impaired cellular differentiation. tRNA methylation analysis of the double-knockout mice demonstrated complementary target-site specificities for Dnmt2 and NSun2 and a complete loss of cytosine-C5 tRNA methylation. Steady-state levels of unmethylate…

MaleRNA StabilityMutantBiologyNSun2MethylationCytosineMiceRNA TransferStructural BiologyProtein biosynthesism5CAnimalsDNA (Cytosine-5-)-MethyltransferasesMolecular BiologytRNACells CulturedMice KnockoutTRNA methylationRNACell DifferentiationMethylationMethyltransferasesTRNA MethyltransferasesBiochemistryProtein BiosynthesisTransfer RNADNA methylationDnmt2FemaleGene DeletionNature structuralmolecular biology
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Further Delineation of Duplications of ARX Locus Detected in Male Patients with Varying Degrees of Intellectual Disability

2022

The X-linked gene encoding aristaless-related homeobox (ARX) is a bi-functional transcription factor capable of activating or repressing gene transcription, whose mutations have been found in a wide spectrum of neurodevelopmental disorders (NDDs); these include cortical malformations, paediatric epilepsy, intellectual disability (ID) and autism. In addition to point mutations, duplications of the ARX locus have been detected in male patients with ID. These rearrangements include telencephalon ultraconserved enhancers, whose structural alterations can interfere with the control of ARX expression in the developing brain. Here, we review the structural features of 15 gain copy-number variants …

MaleTranscription FactorUltraconserved enhancersIntellectual disability3D structureCatalysisInorganic ChemistryMiceAnimalsHumansPhysical and Theoretical ChemistryChildMolecular BiologySpectroscopyHomeodomain ProteinsAnimalKDM5C-SYN1 axiOrganic ChemistryKDM5C-SYN1 axisGenes HomeoboxHomeodomain ProteinGeneral MedicineXp21.3 duplicationComputer Science ApplicationsUltraconserved enhancerSettore MED/03 - Genetica MedicaMutationARXHumanTranscription Factors
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