Search results for "Transposon"

showing 10 items of 61 documents

Comprehensive identification of Vibrio vulnificus genes required for growth in human serum.

2018

ABSTRACT Vibrio vulnificus can be a highly invasive pathogen capable of spreading from an infection site to the bloodstream, causing sepsis and death. To survive and proliferate in blood, the pathogen requires mechanisms to overcome the innate immune defenses and metabolic limitations of this host niche. We created a high-density transposon mutant library in YJ016, a strain representative of the most virulent V. vulnificus lineage (or phylogroup) and used transposon insertion sequencing (TIS) screens to identify loci that enable the pathogen to survive and proliferate in human serum. Initially, genes underrepresented for insertions were used to estimate the V. vulnificus essential gene set;…

0301 basic medicineMicrobiology (medical)septicaemiatransposon insertion sequencing (TIS)capsuleImmunologyVirulenceVibrio vulnificusMicrobiologylcsh:Infectious and parasitic diseasesMicrobiology03 medical and health sciencesMiceBacterial ProteinsAnimalsHumanslcsh:RC109-216GenePathogenVibrio vulnificusMice Inbred BALB CInnate immune systembiologyType II secretion systemVirulencebiology.organism_classificationVibrio3. Good health030104 developmental biologyInfectious DiseasesBloodEssential geneVibrio InfectionsDNA Transposable ElementsParasitologyFemaleresistance to human complementResearch ArticleVirulence
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Ortervirales: New Virus Order Unifying Five Families of Reverse-Transcribing Viruses

2018

International audience; Reverse-transcribing viruses, which synthesize a copy of genomic DNA from an RNA template, are widespread in animals, plants, algae, and fungi (1, 2). This broad distribution suggests the ancient origin(s) of these viruses, possibly [...]

0301 basic medicineS1retrovirusesviruses[SDV]Life Sciences [q-bio]ImmunologyretroviridaeMESH: Reverse TranscriptionL73 - Maladies des animauxVirus Replication[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomyMicrobiologyVirusbelpaoviridaeMESH: Viruses03 medical and health sciencesVirologyinternational committee on taxonomy of viruses (ICTV)Metaviridaevirus classificationLetter to the EditorVirus classificationGeneticsTy3/Gypsy and Ty1/Copia LTR retrotransposonscaulimoviridaevirus evolutionbiologyfungiMESH: Virus ReplicationRNAPseudoviridaeReverse Transcriptionbiology.organism_classificationMESH: Caulimoviridaegenomic DNA030104 developmental biologyMESH: RetroviridaeMESH: HepadnaviridaeInsect ScienceViral evolutionhepadnaviridaeBelpaoviridae; Caulimoviridae; Hepadnaviridae; International Committee on Taxonomy of Viruses (ICTV); Metaviridae; Pseudoviridae; Retroviridae; Ty3/Gypsy and Ty1/Copia LTR retrotransposons; retroviruses; virus classification; virus evolutionViruses[SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/VirologymetaviridaeCaulimoviridaepseudoviridae
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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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Simulation-based estimation of branching models for LTR retrotransposons

2017

Abstract Motivation LTR retrotransposons are mobile elements that are able, like retroviruses, to copy and move inside eukaryotic genomes. In the present work, we propose a branching model for studying the propagation of LTR retrotransposons in these genomes. This model allows us to take into account both the positions and the degradation level of LTR retrotransposons copies. In our model, the duplication rate is also allowed to vary with the degradation level. Results Various functions have been implemented in order to simulate their spread and visualization tools are proposed. Based on these simulation tools, we have developed a first method to evaluate the parameters of this propagation …

0301 basic medicineStatistics and ProbabilitySource codeTheoretical computer scienceRetroelementsmedia_common.quotation_subjectRetrotransposon[INFO.INFO-SE]Computer Science [cs]/Software Engineering [cs.SE]BiologyBiochemistryGenomeChromosomesBranching (linguistics)[INFO.INFO-IU]Computer Science [cs]/Ubiquitous Computing03 medical and health sciences[INFO.INFO-CR]Computer Science [cs]/Cryptography and Security [cs.CR]SoftwareAnimalsComputer SimulationMolecular BiologyComputingMilieux_MISCELLANEOUSmedia_commoncomputer.programming_languageGeneticsGenomeModels Geneticbusiness.industry[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]Python (programming language)[SDV.BIBS]Life Sciences [q-bio]/Quantitative Methods [q-bio.QM][INFO.INFO-MO]Computer Science [cs]/Modeling and SimulationComputer Science ApplicationsVisualizationComputational Mathematics030104 developmental biologyDrosophila melanogasterComputational Theory and Mathematics[INFO.INFO-MA]Computer Science [cs]/Multiagent Systems [cs.MA]Programming Languages[INFO.INFO-ET]Computer Science [cs]/Emerging Technologies [cs.ET]Mobile genetic elements[INFO.INFO-DC]Computer Science [cs]/Distributed Parallel and Cluster Computing [cs.DC]businesscomputerSoftware
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Identification of transcribed protein coding sequence remnants within lincRNAs

2018

Abstract Long intergenic non-coding RNAs (lincRNAs) are non-coding transcripts >200 nucleotides long that do not overlap protein-coding sequences. Importantly, such elements are known to be tissue-specifically expressed and to play a widespread role in gene regulation across thousands of genomic loci. However, very little is known of the mechanisms for the evolutionary biogenesis of these RNA elements, especially given their poor conservation across species. It has been proposed that lincRNAs might arise from pseudogenes. To test this systematically, we developed a novel method that searches for remnants of protein-coding sequences within lincRNA transcripts; the hypothesis is that we can t…

0301 basic medicineTransposable elementSequence analysisPseudogeneRetrotransposonComputational biologyBiologyOpen Reading Frames03 medical and health sciences0302 clinical medicineIntergenic regionSequence Analysis ProteinGeneticsHumansAmino Acid SequenceGeneRegulation of gene expressionBase SequenceSequence Analysis RNAComputational Biology030104 developmental biologyGene Expression RegulationDNA IntergenicRNA Long NoncodingSequence AlignmentAlgorithms030217 neurology & neurosurgeryBiogenesisNucleic Acids Research
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PIWIL3 Forms a Complex with TDRKH in Mammalian Oocytes.

2019

P-element induced wimpy testis (PIWIs) are crucial guardians of genome integrity, particularly in germ cells. While mammalian PIWIs have been primarily studied in mouse and rat, a homologue for the human PIWIL3 gene is absent in the Muridae family, and hence the unique function of PIWIL3 in germ cells cannot be effectively modeled by mouse knockouts. Herein, we investigated the expression, distribution, and interaction of PIWIL3 in bovine oocytes. We localized PIWIL3 to mitochondria, and demonstrated that PIWIL3 expression is stringently controlled both spatially and temporally before and after fertilization. Moreover, we identified PIWIL3 in a mitochondrial-recruited three-membered complex…

0301 basic medicineTransposable elementendocrine systemCytoplasmArgininetransposonMutagenesis (molecular biology technique)Piwi-interacting RNAEmbryonic DevelopmentmammalpiRNABiologyMitochondrionArginineArticle03 medical and health sciences0302 clinical medicinemedicineAnimalsAmino Acid SequenceRNA Small Interferingoocytelcsh:QH301-705.5GeneGene knockoutMuridaegenomic integrityPIWIRNA-Binding ProteinsGeneral Medicinebiology.organism_classificationOocyteCell biologyMitochondriaProtein Transport030104 developmental biologymedicine.anatomical_structurelcsh:Biology (General)Argonaute ProteinsExoribonucleasesDNA Transposable ElementsOocytesCattle030217 neurology & neurosurgeryFunction (biology)Protein BindingCells
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Genome Sequencing and Transcriptome Analysis Reveal Recent Species-specific Gene Duplications in the Plastic Gilthead Sea Bream

2019

AbstractGilthead sea bream is an economically important fish species that is remarkably well-adapted to farming and changing environments. Understanding the genomic basis of this plasticity will serve to orientate domestication and selective breeding towards more robust and efficient fish. To address this goal, a draft genome assembly was reconstructed combining short- and long-read high-throughput sequencing with genetic linkage maps. The assembled unmasked genome spans 1.24 Gb of an expected 1.59 Gb genome size with 932 scaffolds (∼732 Mb) anchored to 24 chromosomes that are available as a karyotype browser at www.nutrigroup-iats.org/seabreambrowser. Homology-based functional annotation, …

0303 health sciencesRetrotransposonBiologyGenomeDNA sequencing03 medical and health sciences0302 clinical medicineEvolutionary biologyGene family14. Life underwaterMobilomeGenome sizeGene030217 neurology & neurosurgery030304 developmental biologySynteny
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ICTV Virus Taxonomy Profile: Belpaoviridae 2021

2021

The family Belpaoviridae comprises metazoan-infecting reverse-transcribing viruses with long terminal repeats, commonly known as Bel/Pao LTR retrotransposons. These viruses share evolutionary history and genes involved in genome replication and virion formation with reverse-transcribing viruses of the families Metaviridae, Pseudoviridae, Retroviridae and Caulimoviridae. These five families form the order Ortervirales. This is a summary of the ICTV Report on the family Belpaoviridae, which is available at ictv.global/report/belpaoviridae.

0303 health sciencesbiology030302 biochemistry & molecular biologyRetrotransposonPseudoviridaebiology.organism_classificationVirologyGenomeLong terminal repeat3. Good health03 medical and health sciencesVirologyCaulimoviridaeMetaviridaeGeneVirus classification030304 developmental biologyJournal of General Virology
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Reverse-transcribing viruses (Belpaoviridae, Metaviridae, and Pseudoviridae)

2021

Fourth Edition.

0303 health sciencesbiologyRetrotransposonPseudoviridaebiology.organism_classificationLong terminal repeat3. Good health03 medical and health sciences0302 clinical medicineOrder (biology)RetrovirusEvolutionary biology030220 oncology & carcinogenesisComputingMethodologies_DOCUMENTANDTEXTPROCESSINGCaulimoviridaeMetaviridaeGeneGeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)030304 developmental biology
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Progerin expression induces a significant downregulation of transcription from human repetitive sequences in iPSC-derived dopaminergic neurons.

2019

Repetitive DNA sequences represent about half of the human genome. They have a central role in human biology, especially neurobiology, but are notoriously difficult to study. The purpose of this study was to quantify the transcription from repetitive sequences in a progerin-expressing cellular model of neuronal aging. Progerin is a nuclear protein causative of the Hutchinson–Gilford progeria syndrome that is also incrementally expressed during the normal aging process. A dedicated pipeline of analysis allowed to quantify transcripts containing repetitive sequences from RNAseq datasets oblivious of their genomic localization, tolerating a sufficient degree of mutational noise, all with low c…

AgingRetroelementsTranscription GeneticAluInduced Pluripotent Stem CellsAlu elementDown-RegulationSettore BIO/11 - Biologia MolecolareRetrotransposonComputational biologyBiologySettore BIO/19 - Microbiologia GeneraleProgerinProgeriaSettore BIO/13 - Biologia ApplicataAlu ElementsRepetitive sequencemedicineRetrotransposonHumansDNA transposonRepeated sequenceGeneCellular SenescenceProgeriaintegumentary systemDopaminergic NeuronsFibroblastsmedicine.diseaseProgerinLamin Type ASettore BIO/18 - GeneticaSatelliteHuman genomeOriginal ArticleGeriatrics and GerontologyGeroScience
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