Search results for "enrichment analysis"

showing 4 items of 4 documents

Exome-Wide Association Study on Alanine Aminotransferase Identifies Sequence Variants in the GPAM and APOE Associated With Fatty Liver Disease.

2021

BACKGROUND & AIMS: Fatty liver disease (FLD) is a growing epidemic that is expected to be the leading cause of end-stage liver disease within the next decade. Both environmental and genetic factors contribute to the susceptibility of FLD. Several genetic variants contributing to FLD have been identified in exome-wide association studies. However, there is still a missing hereditability indicating that other genetic variants are yet to be discovered. METHODS: To find genes involved in FLD, we first examined the association of missense and nonsense variants with alanine amino transferase at an exome-wide level in 425,671 participants from the UK Biobank. We then validated genetic variants wit…

0301 basic medicineGenome-wide association studyLiver disease0302 clinical medicineENRICHMENT ANALYSISNon-alcoholic Fatty Liver DiseaseRisk FactorsNonalcoholic fatty liver diseaseExomeCONFERS SUSCEPTIBILITYGeneticsINSULIN-RESISTANCEmedicine.diagnostic_testFatty liverGastroenterologyAlanine Transaminase1-Acylglycerol-3-Phosphate O-Acyltransferase3. Good healthGENOMEEuropePhenotypeLiver biopsy030211 gastroenterology & hepatologyNonalcoholic Fatty Liver DiseaseMAFLDSingle-nucleotide polymorphismBiologyTransaminaseRisk Assessment03 medical and health sciencesApolipoproteins ENAFLDmedicineGenetic predispositionHumansGenetic Predisposition to DiseaseHEPATIC STEATOSISGenetic associationMAFLD Phenotype Reproducibility of Results Risk Assessment Risk Factors Transcriptome Genetic Variation Metabolic Associated Fatty Liver Disease Nonalcoholic Fatty Liver Disease Transaminase 1-Acylglycerol-3-Phosphate O-Acyltransferase Alanine Transaminase Apolipoproteins E Biomarkers Europe Exome Gene Expression Profiling Genetic Predisposition to Disease Genome-Wide Association Study Humans Non-alcoholic Fatty Liver DiseaseHepatologyMUTATIONSGene Expression ProfilingGenetic VariationReproducibility of Resultsmedicine.diseaseX-RECEPTORGENE030104 developmental biology3121 General medicine internal medicine and other clinical medicineMetabolic Associated Fatty Liver DiseaseRNA-SEQ DATATranscriptomePATHOGENICITYBiomarkersGenome-Wide Association StudyGastroenterology
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Nuclear inclusions of pathogenic ataxin-1 induce oxidative stress and perturb the protein synthesis machinery

2020

Spinocerebellar ataxia type-1 (SCA1) is caused by an abnormally expanded polyglutamine (polyQ) tract in ataxin-1. These expansions are responsible for protein misfolding and self-assembly into intranuclear inclusion bodies (IIBs) that are somehow linked to neuronal death. However, owing to lack of a suitable cellular model, the downstream consequences of IIB formation are yet to be resolved. Here, we describe a nuclear protein aggregation model of pathogenic human ataxin-1 and characterize IIB effects. Using an inducible Sleeping Beauty transposon system, we overexpressed the ATXN1(Q82) gene in human mesenchymal stem cells that are resistant to the early cytotoxic effects caused by the expr…

0301 basic medicineSCA1 Spinocerebellar ataxia type-1Intranuclear Inclusion BodiesClinical BiochemistryMSC mesenchymal stem cellProtein aggregationBiochemistry0302 clinical medicineMutant proteinProtein biosynthesisDE differentially expressed genesNuclear proteinlcsh:QH301-705.5FTIR Fourier-transform infrared spectroscopyAtaxin-1lcsh:R5-920biologyChemistryNuclear ProteinspolyQ polyglutamineRibosomeCell biologySB Sleeping BeautyRibosome ; Polyglutamine ; Ataxin-1 ; Oxidative stress ; Transposon ; Sleeping beauty transposon ; Protein networkSpinocerebellar ataxiaProtein foldingCellular modelFunction and Dysfunction of the Nervous Systemlcsh:Medicine (General)Research PaperiPSC induced pluripotent stem cellAtaxin 1Nerve Tissue ProteinsPPI protein-protein interaction03 medical and health sciencesROS reactive oxygen speciesProtein networkSleeping beauty transposonGSEA Gene Set Enrichment AnalysismedicineHumansNPC neural progenitor cellOrganic Chemistrymedicine.diseaseAFM atomic force microscopyOxidative Stress030104 developmental biologylcsh:Biology (General)IIBs intranuclear inclusion bodiesMS mass spectrometryCardiovascular and Metabolic Diseasesbiology.proteinPolyglutamine030217 neurology & neurosurgery
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GeneTonic: an R/Bioconductor package for streamlining the interpretation of RNA-seq data

2021

AbstractBackgroundThe interpretation of results from transcriptome profiling experiments via RNA sequencing (RNA-seq) can be a complex task, where the essential information is distributed among different tabular and list formats - normalized expression values, results from differential expression analysis, and results from functional enrichment analyses. A number of tools and databases are widely used for the purpose of identification of relevant functional patterns, yet often their contextualization within the data and results at hand is not straightforward, especially if these analytic components are not combined together efficiently.ResultsWe developed the GeneTonic software package, whi…

QH301-705.5Process (engineering)Computer scienceShinyComputer applications to medicine. Medical informaticsBioconductor610 MedizinR858-859.7Context (language use)Interactive data analysisReproducible researchBioconductorInteractivity610 Medical sciencesUse caseRNA-SeqBiology (General)MIT LicenseTranscriptomicsInformation retrievalBase SequenceSequence Analysis RNAData interpretationData visualizationRReproducibility of ResultsIdentification (information)WorkflowRNASoftwareFunctional enrichment analysis
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DiseaseLinc: Disease Enrichment Analysis of Sets of Differentially Expressed LincRNAs

2021

Long intergenic non-coding RNAs (LincRNAs) are long RNAs that do not encode proteins. Functional evidence is lacking for most of them. Their biogenesis is not well-known, but it is thought that many lincRNAs originate from genomic duplication of coding material, resulting in pseudogenes, gene copies that lose their original function and can accumulate mutations. While most pseudogenes eventually stop producing a transcript and become erased by mutations, many of these pseudogene-based lincRNAs keep similarity to the parental gene from which they originated, possibly for functional reasons. For example, they can act as decoys for miRNAs targeting the parental gene. Enrichment analysis of fun…

PseudogeneBreast NeoplasmsKaplan-Meier EstimateComputational biologyDiseaseBiologyweb toolENCODEArticleenrichment analysisdiseasesUser-Computer InterfaceIntergenic regionmicroRNAHumansDiseaselcsh:QH301-705.5GeneInternetGene Expression ProfilinglincRNAsGeneral MedicinePrognosisGene Expression Regulation Neoplasticlcsh:Biology (General)FemaleRNA Long NoncodingFunction (biology)BiogenesisCells
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