Search results for "Transposable Elements"

showing 8 items of 68 documents

In vivo assembly of chromatin on pBR322 sequences cloned into yeast plasmids

1989

Abstract In order to study the in vivo assembly of chromatin on prokaryotic DNA templates, we have transformed yeast cells with plasmids pAJ50 and pRB58, which contain pBR322 sequences. In both cases nucleosomes are assembled in vivo on pBR322 DNA, although the nucleosomes are not homogeneous in size. To explore whether there is any preference for nucleosome assembly along pBR322 sequences, we have used an indirect end labeling method. The results indicate that most nucleosomes are placed at random on pBR322, although the probability for histone octamers to interact with some short regions is somewhat reduced. These regions coincide with sequences in which the frequency distribution of nucl…

biologyNucleosome assemblyRestriction MappingSaccharomyces cerevisiaeSaccharomyces cerevisiaeTemplates GeneticMolecular cloningbiology.organism_classificationMolecular biologyChromatinNucleosomesChromatinCell biologyBlotting SouthernRestriction mapHistonePlasmidDNA Transposable Elementsbiology.proteinNucleosomeCloning MolecularMolecular BiologyPlasmidsPlasmid
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Comparative evolution of P–M system and infection by the sigma virus in French and Spanish populations ofDrosophila melanogaster

1992

SummaryIn 1983, an extensive survey of populations ofD. melanogasterwas started in a southern French region (Languedoc) in two non-Mendelian systems: the P–M system of transposable elements and the hereditary Rhabdovirus sigma. Unexpectedly fast-evolving phenomena were observed and interesting correlations were noted, giving similar geographical pattern to the region in both systems. For these reasons, the analysis was continued and extended towards the north (Rhône Valley) and the south (Spain). In the P–M system, all the Languedoc populations evolved from 1983 to 1991 towards the Q type which is characteristic of the Rhône Valley populations. In contrast, M′ strains are currently observed…

biologyZoologyPopulation geneticsGeneral MedicineBiological evolutionCarbon Dioxidebiology.organism_classificationBiological EvolutionDrosophila melanogasterGenetics PopulationGene FrequencySpainDrosophilidaeDNA Transposable ElementsGeneticsAnimalsGenetic Predisposition to DiseaseFranceSigma virusRhabdoviridaeDrosophila melanogasterAllelesGenetical Research
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Extensive nuclear gyration and pervasive non-genic transcription during primordial germ cell development in zebrafish.

2020

ABSTRACT Primordial germ cells (PGCs) are the precursors of germ cells, which migrate to the genital ridge during early development. Relatively little is known about PGCs after their migration. We studied this post-migratory stage using microscopy and sequencing techniques, and found that many PGC-specific genes, including genes known to induce PGC fate in the mouse, are only activated several days after migration. At this same time point, PGC nuclei become extremely gyrated, displaying general broad opening of chromatin and high levels of intergenic transcription. This is accompanied by changes in nuage morphology, expression of large loci (PGC-expressed non-coding RNA loci, PERLs) that ar…

endocrine systemRNA UntranslatedTranscription GeneticZygotePiwi-interacting RNApiRNABiology03 medical and health sciences0302 clinical medicineGyrationTranscription (biology)Primordial germ cellmedicineAnimalsRNA Small InterferingMolecular BiologyZebrafishGeneZebrafish030304 developmental biologyCell NucleusNuage0303 health sciencesGonadal ridgeurogenital systemNuclear morphologyGene Expression Regulation DevelopmentalDNA-Directed RNA PolymerasesZygotic activationZebrafish Proteinsbiology.organism_classificationChromatinCell biologyUp-Regulationmedicine.anatomical_structureGerm CellsGenetic Loci207FertilizationMutationIntergenic transcriptionDNA Transposable ElementsDNA Intergenic030217 neurology & neurosurgeryGerm cellBiogenesisDevelopmental BiologyResearch ArticleDevelopment (Cambridge, England)
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Mobile genetic element proliferation and gene inactivation impact over the genome structure and metabolic capabilities of Sodalis glossinidius, the s…

2010

Abstract Background Genome reduction is a common evolutionary process in symbiotic and pathogenic bacteria. This process has been extensively characterized in bacterial endosymbionts of insects, where primary mutualistic bacteria represent the most extreme cases of genome reduction consequence of a massive process of gene inactivation and loss during their evolution from free-living ancestors. Sodalis glossinidius, the secondary endosymbiont of tsetse flies, contains one of the few complete genomes of bacteria at the very beginning of the symbiotic association, allowing to evaluate the relative impact of mobile genetic element proliferation and gene inactivation over the structure and funct…

lcsh:QH426-470Tsetse Flieslcsh:BiotechnologyPseudogeneProphagesBacterial genome sizeBiologyWigglesworthia glossinidiaGenomeEnterobacteriaceaelcsh:TP248.13-248.65GeneticsAnimalsGene SilencingSymbiosisGeneGeneticsfungiSodalis glossinidiusGenomicsbiology.organism_classificationlcsh:GeneticsWigglesworthiaGenes BacterialDNA Transposable ElementsMobile genetic elementsPseudogenesBiotechnologyResearch ArticleBMC Genomics
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Patterns and rates of nucleotide substitution, insertion and deletion in the endosymbiont of antsBlochmannia floridanus

2009

Genome reduction is a general process that has been studied in numerous symbiotic bacteria associated with insects. We investigated the last stages of genome degradation in Blochmannia floridanus, a mutualistic bacterial endosymbiont of the ant Camponotus floridanus. We determined the tempo (rates of insertion and deletion) and mode (size and number of insertion-deletion events) of the process in the last 200,000 years by analysing a total of 16 intergenic regions in several strains of this endosymbiont from different ant populations. We provide the first calculation of the reduction rate for noncoding DNA in this endosymbiont (2.2 x 10(-8) lost nucleotides/site/year) and compare it with th…

medicine.disease_causePolymerase Chain ReactionPolymorphism Single NucleotideGenomeIntergenic regionGeneticsmedicineAnimalsSymbiosisIndelEscherichia coliEcosystemPhylogenyEcology Evolution Behavior and SystematicsSequence DeletionGeneticsGenomeBase SequencebiologyAntsbiology.organism_classificationNoncoding DNADNA Transposable ElementsFloridaMicrosatelliteCamponotus floridanusBuchneraMolecular Ecology
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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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Double copies of blaKPC-3::Tn4401a on an IncX3 plasmid in Klebsiella pneumoniae successful clone ST512 from Italy

2015

ABSTRACT A carbapenem-resistant sequence type 512 (ST512) Klebsiella pneumoniae carbapenemase 3 (KPC-3)-producing K. pneumoniae strain showing a novel variant plasmid content was isolated in Palermo, Italy, in 2014. ST512 is a worldwide successful clone associated with the spread of bla KPC genes located on the IncFIIk pKpQIL plasmid. In our ST512 strain, the bla KPC-3 gene was unusually located on an IncX3 plasmid, whose complete sequence was determined. Two copies of bla KPC-3 ::Tn 4401a caused by intramolecular transposition events were detected in the plasmid.

transposonsequence analysispolymerase chain reactionDrug ResistanceGene DosageSettore MED/42 - Igiene Generale E Applicatabacterial proteinbeta-Lactamaseopen reading framecarbapenemasePlasmidminocyclineplasmid DNAmeropenemPharmacology (medical)geneticscolistincefpodoximeceftazidime610 Medicine & healthCarbapenemBacterialpolymyxin Btimentingene expression regulationbacteriumKlebsiella pneumoniae carbapenemase 3 producing Klebsiella pneumoniae3. Good healthantiinfective agentmicrobial sensitivity testKlebsiella pneumoniaeItalypriority journaltigecyclineMultipleclone (Java method)cefotaxime030106 microbiologyKlebsiella pneumoniae carbapenemase 3tobramycinMicrobial Sensitivity Testsgentamicinpiperacillin plus tazobactamchemistryGene dosageArticleMicrobiology03 medical and health sciencesComplete sequenceClone CellOpen Reading FramesertapenemBacterial Proteinsmultidrug resistanceextensively drug resistant bacteriumAnti-Bacterial AgentcefepimePharmacologylevofloxacinmicrobiologycefoxitinbiochemical phenomena metabolism and nutritionbacterial infections and mycosesVirologyAnti-Bacterial Agents; Bacterial Proteins; Carbapenems; Clone Cells; Drug Resistance Multiple Bacterial; Gene Dosage; Italy; Klebsiella Infections; Klebsiella pneumoniae; Microbial Sensitivity Tests; Open Reading Frames; Plasmids; beta-Lactamases; DNA Transposable Elements; Gene Expression Regulation Bacterial; Pharmacology (medical); Pharmacology; Infectious Diseasesantibiotic sensitivityClone CellsKlebsiella InfectionsceftriaxoneCarbapenemsbacterial genetics0301 basic medicinemolecular cloningSettore MED/07 - Microbiologia E Microbiologia ClinicaKlebsiella pneumoniaeTransposition (music)Drug Resistance Multiple Bacterialpolycyclic compoundsgenetic screeningcell clonecarbapenem derivativeKlebsiella infectionunclassified drugAnti-Bacterial AgentsInfectious Diseasesbacterial genePlasmidsenzymologydoripenemBiologyminimum inhibitory concentrationbeta-Lactamasesbeta lactamaseMechanisms of ResistanceciprofloxacinAmikacin; aztreonam; carbapenemase; cefepime; cefotaxime; cefoxitin; cefpodoxime; ceftazidime; ceftriaxone; ciprofloxacin; colistin; cotrimoxazole; doripenem; doxycycline; ertapenem; gentamicin; imipenem; Klebsiella pneumoniae carbapenemase 3; levofloxacin; meropenem; minocycline; piperacillin plus tazobactam; plasmid DNA; polymyxin B; tigecycline; timentin; tobramycin; unclassified drug; antiinfective agent; bacterial protein; beta lactamase; carbapenem derivative; transposon antibiotic sensitivity; Article; bacterial gene; bacterial genetics; bacterial strain; bacterium; bacterium detection; bacterium isolation; Escherichia coli; extensively drug resistant bacterium; gene dosage; genetic screening; Italy; Klebsiella pneumoniae; Klebsiella pneumoniae carbapenemase 3 producing Klebsiella pneumoniae; minimum inhibitory concentration; molecular cloning; nonhuman; polymerase chain reaction; priority journal; sequence analysis; cell clone; chemistry; drug effects; enzymology; gene expression regulation; genetics; isolation and purification; Klebsiella infection; Klebsiella pneumoniae; metabolism; microbial sensitivity test; microbiology; multidrug resistance; open reading frame; plasmid; transposon Anti-Bacterial Agents; Bacterial Proteins; beta-Lactamases; Carbapenems; Clone Cells; DNA Transposable Elements; Drug Resistance Multiple Bacterial; Gene Dosage; Gene Expression Regulation Bacterial; Italy; Klebsiella Infections; Klebsiella pneumoniae; Microbial Sensitivity Tests; Open Reading Frames; Plasmidsplasmidbacterium isolationEscherichia coliGeneAmikacinbacterium detectionnonhumandoxycyclineisolation and purificationGene Expression Regulation Bacterialbiology.organism_classificationbacterial straincotrimoxazoleOpen reading frameDNA Transposable Elementdrug effectsDNA Transposable Elementsmetabolismaztreonamimipenem
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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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