Search results for "transposons"

showing 10 items of 10 documents

Ocean acidification at a coastal CO2 vent induces expression of stress-related transcripts and transposable elements in the sea anemone Anemonia viri…

2019

Published version, available at: https://doi.org/10.1371/journal.pone.0210358 Ocean acidification threatens to disrupt interactions between organisms throughout marine ecosystems. The diversity of reef-building organisms decreases as seawater CO2 increases along natural gradients, yet soft-bodied animals, such as sea anemones, are often resilient. We sequenced the polyA-enriched transcriptome of adult sea anemone Anemonia viridis and its dinoflagellate symbiont sampled along a natural CO2 gradient in Italy to assess stress levels in these organisms. We found that about 1.4% of the anemone transcripts, but only ~0.5% of the Symbiodinium sp. transcripts were differentially expressed. Processe…

0106 biological sciences0301 basic medicineAtmospheric ScienceMolecular biologyMarine and Aquatic SciencesGene ExpressionRetrotransposonSea anemone01 natural sciencesAnemoniaSequencing techniquesMobile Genetic ElementsMultidisciplinarybiologyQREukaryotaOcean acidificationAnemoneRNA sequencingGenomicsChemistryRetrotransposonsPhysical SciencesMedicineTranscriptome AnalysisResearch ArticleScienceZoology010603 evolutionary biology03 medical and health sciencesGreenhouse GasesCnidariaGenetic ElementsSea WaterGeneticsVDP::Matematikk og Naturvitenskap: 400::Basale biofag: 470Environmental ChemistryAnimalsMarine ecosystemBiology and life sciencesEcology and Environmental SciencesDinoflagellateChemical CompoundsOrganismsTransposable ElementsCorrectionAquatic EnvironmentsComputational BiologyCarbon Dioxidebiology.organism_classificationGenome AnalysisMarine EnvironmentsInvertebratesVDP::Mathematics and natural science: 400::Basic biosciences: 470Research and analysis methods:Genetikk og genomikk: 474 VDP::Marinbiologi:497 VDP::Økologi:488 [VDP]030104 developmental biologySea AnemonesMolecular biology techniquesAtmospheric ChemistryEarth SciencesSeawater
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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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Phage-borne factors and host LexA regulate the lytic switch in phage GIL01.

2011

ABSTRACT The Bacillus thuringiensis temperate phage GIL01 does not integrate into the host chromosome but exists stably as an independent linear replicon within the cell. Similar to that of the lambdoid prophages, the lytic cycle of GIL01 is induced as part of the cellular SOS response to DNA damage. However, no CI-like maintenance repressor has been detected in the phage genome, suggesting that GIL01 uses a novel mechanism to maintain lysogeny. To gain insights into the GIL01 regulatory circuit, we isolated and characterized a set of 17 clear plaque ( cp ) mutants that are unable to lysogenize. Two phage-encoded proteins, gp1 and gp7, are required for stable lysogen formation. Analysis of …

Gene Expression Regulation ViralvirusesBacteriophages Transposons and PlasmidsBacillus thuringiensisBacillus PhagesBiologyMicrobiologyHost-Parasite InteractionsBacteriolysisLysogenBacterial ProteinsLysogenic cycleHost chromosomeSOS responseSOS Response GeneticsMolecular BiologyLysogenyGeneticsBinding SitesSerine Endopeptidasesbiochemical phenomena metabolism and nutritionBacillus PhageTemperatenessLytic cycleDNA ViralbacteriaVirus ActivationRepressor lexAProtein BindingJournal of bacteriology
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Clostridium difficile IStron CdISt1: Discovery of a Variant Encoding Two Complete Transposase-Like Proteins

2004

ABSTRACT Screening a Clostridium difficile strain collection for the chimeric element Cd ISt1 , we identified two additional variants, designated Cd ISt1 -0 and Cd ISt1 -III. In in vitro assays, we could prove the self-splicing ribozyme activity of these variants. Structural comparison of all known Cd ISt1 variants led us to define four types of IStrons that we designated Cd ISt1 -0 through Cd ISt1 -III. Since Cd ISt1 -0 encodes two complete transposase-like proteins (TlpA and TlpB), we suggest that it represents the original genetic element, hypothesized before to have originated by fusion of a group I intron and an insertion sequence element.

Genetics0303 health sciencesbiology030306 microbiologyClostridioides difficileStrain (biology)Bacteriophages Transposons and PlasmidsMolecular Sequence DataRibozymeIntronTransposasesClostridium difficilebiology.organism_classificationMicrobiologyIntrons03 medical and health sciencesGenes Bacterialbiology.proteinBacteriologyDNA Transposable ElementsClostridiaceaeInsertion sequenceMolecular BiologyTransposase030304 developmental biology
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Demonstration that the Group II Intron from the Clostridial Conjugative Transposon Tn5397 Undergoes Splicing In Vivo

2001

Previous work has identified the conjugative transposon Tn5397 from Clostridium difficile. This element was shown to contain a group II intron. Tn5397 can be conjugatively transferred from C. difficile to Bacillus subtilis. In this work we show that the intron is spliced in both these hosts and that nonspliced RNA is also present. We constructed a mutation in the open reading frame within the intron, and this prevented splicing but did not prevent the formation of the circular form of the conjugative transposon (the likely transposition intermediate) or decrease the frequency of intergeneric transfer of Tn5397. Therefore, the intron is spliced, but splicing is not required for conjugation o…

GeneticsTransposable elementMutationClostridioides difficileRNA SplicingIntronRNAGroup II intronBiologymedicine.disease_causeMicrobiologyIntronsTransposition (music)Open reading frameRNA BacterialConjugation GeneticRNA splicingmedicineDNA Transposable ElementsRNA MessengerMolecular BiologyPlasmids and TransposonsBacillus subtilis
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Genetics for Pseudoalteromonas provides tools to manipulate marine bacterial virus PM2

2008

ABSTRACT The genetic manipulation of marine double-stranded DNA (dsDNA) bacteriophage PM2 ( Corticoviridae ) has been limited so far. The isolation of an autonomously replicating DNA element of Pseudoalteromonas haloplanktis TAC125 and construction of a shuttle vector replicating in both Escherichia coli and Pseudoalteromonas enabled us to design a set of conjugative shuttle plasmids encoding tRNA suppressors for amber mutations. Using a host strain carrying a suppressor plasmid allows the introduction and analysis of nonsense mutations in PM2. Here, we describe the isolation and characterization of a suppressor-sensitive PM2 sus2 mutant deficient in the structural protein P10. To infect an…

MESH: Corticoviridae[SDV]Life Sciences [q-bio]Bacteriophages Transposons and PlasmidsMutantPlasmidPseudoalteromonasRNA TransferMESH: Genetic VectorsMESH: Models GeneticMESH: Capsid ProteinsGenetics0303 health sciencesbiologyMESH: Escherichia coliPseudoalteromonasMESH: Mutagenesis Site-DirectedPhenotypeMESH: DNA CircularElectrophoresis Polyacrylamide GelDNA CircularMESH: Genome ViralPlasmidsMESH: MutationGenetic VectorsGenome ViralMESH: PhenotypeMicrobiologyPseudoalteromonas haloplanktisViral Proteins03 medical and health sciencesShuttle vectorMESH: PlasmidsHost outer membraneEscherichia coliSeawaterMolecular Biology030304 developmental biologyModels Genetic030306 microbiologyMESH: PseudoalteromonasCorticoviridaeMESH: SeawaterViral membranebiology.organism_classificationMESH: RNA TransferMESH: Viral Proteins[SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/BacteriologyMutationMutagenesis Site-DirectedCapsid ProteinsBacterial virusMESH: Electrophoresis Polyacrylamide Gel
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Innovative and Applied Research in Biology: Proceedings, Vol. 3/2021

2021

The collection contains SCIENTIFIC articles on the topics of the LU 79 conference reports. The main focus is on innovative and applied research in biology and interdisciplinary fields.

iPBSBiofragmentationDrosophila melanogaster reproductive successProtecting organisms from UV-B radiation and extremely low-frequency electromagnetic fieldsBiotextile protection propertiesCloudberryGenetic diversitySoil burial testBacterial cellulose:NATURAL SCIENCES::Biology [Research Subject Categories]RetrotransposonsIsocitrate dehydrogenase as a candidate locusImmature gametic cellsAcetic acid bacteriaEcosystem servicesThe Daugava RiverTrifolium repensCypripedium calceolusScanning electron microscopy
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Data from: Virus epidemics can lead to a population-wide spread of intragenomic parasites in a previously parasite-free asexual population

2014

In a recent issue of Molecular Ecology the role of intragenomic parasites in maintaining sexual reproduction was both experimentally evaluated by Kraaijeveld et al. and discussed by Crespi and Schwander. The prevalence of sex is difficult to explain, due to its costs when compared with asexual reproduction. Yet, as reviewed by Crespi and Schwander, sex can be favorable in the presence of proliferating transposons. Transposons are similar to mutations, in that their integration to non-neutral loci is likely to have deleterious effects, and sexual recombination provides a potential mechanism to confine their accumulation.

medicine and health careEvolutionary TheorytransposonsGenomics/ProteomicsLife SciencesMedicineendogenous virusesHost Parasite Interactions
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Retrotranspozonu struktūra parastās priedes (Pinus sylvestris L.) genomā un to ekspresija

2014

ANOTĀCIJA Promocijas darbs izstrādāts Latvijas Valsts mežzinātnes institūtā „Silava”. Pētījuma mērķis bija identificēt aktīvos retrotranspozonus parastās priedes (Pinus sylvestris L.) genomā un raksturot to transkripcijas līmeni dažādu stresa veidu ietekmē kontrolētos apstākļos. Pētījumā izmantoti nespecifiskie retrotranspozonu marķieri balstīti uz augsti konservatīvām tRNS piesaistes vietām. Viena klona priežu rametus pakļāva dabā izplatītam karstuma stresam, kukaiņu invāzijai (priežu hermess (Pineus pini L.), kā arī mākslīgi izraisītai augu hormonu (abscīzskābes un salicilskābes) ietekmei. Darba rezultātā identificēti pārsvarā I klases mobīlo elementu pārstāvji, kā arī tos saturošie himēr…

retrotranspozonidiferenciāla ekspresijagymnospermsMolecular biologyScots pine (Pinus sylvestris L.)kailsēkļiDzīvās dabas zinātnesBioloģijaTransposable elementsMolekulārā bioloģijaTransponējamie elementiretrotransposonsdifferential expression
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The prolyl-isomerase PIN1 is essential for nuclear Lamin-B structure and function and protects heterochromatin under mechanical stress.

2021

Summary: Chromatin organization plays a crucial role in tissue homeostasis. Heterochromatin relaxation and consequent unscheduled mobilization of transposable elements (TEs) are emerging as key contributors of aging and aging-related pathologies, including Alzheimer’s disease (AD) and cancer. However, the mechanisms governing heterochromatin maintenance or its relaxation in pathological conditions remain poorly understood. Here we show that PIN1, the only phosphorylation-specific cis/trans prolyl isomerase, whose loss is associated with premature aging and AD, is essential to preserve heterochromatin. We demonstrate that this PIN1 function is conserved from Drosophila to humans and prevents…

transposonsNeocortexMiceHeterochromatinProlyl isomeraseDrosophila ProteinsBiology (General)PhosphorylationRNA Small InterferingTissue homeostasisCells CulturedSettore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniNeuronsLamin Type BChemistryHP1phosphorylationneurodegenerationnuclear envelopePeptidylprolyl IsomeraseCell biologyDrosophila heterochromatin HP1 Lamin mechanical stress neurodegeneration nuclear envelope phosphorylation PIN1 transposonsNuclear laminaDrosophilaRNA InterferencePremature agingQH301-705.5HeterochromatinNuclear EnvelopeDrosophila; heterochromatin; HP1; Lamin; mechanical stress; neurodegeneration; nuclear envelope; phosphorylation; PIN1; transposonsSettore BIO/11 - Biologia MolecolareSettore MED/08 - Anatomia PatologicaGeneral Biochemistry Genetics and Molecular BiologyPIN1Alzheimer DiseaseSettore MED/05 - Patologia ClinicaAnimalsHumansHeterochromatin maintenancemechanical stressheterochromatinmechanical streMice Inbred C57BLNIMA-Interacting Peptidylprolyl IsomeraseChromobox Protein Homolog 5DNA Transposable ElementsHeterochromatin protein 1Stress MechanicalLaminLaminCell reports
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