Search results for "DNA Transposable Elements"

showing 10 items of 64 documents

Transposons Tn916 and Tn925 can transfer from Enterococcus faecalis to Leuconostoc oenos

1996

The streptococcal transposons Tn916 and Tn925 were transferred to several strains of Leuconostoc (Ln.) oenos using the filter mating method. The insertion of both transposons into the chromosome occurred at different sites. Transconjugants of Ln. oenos carrying Tn916 could serve as donors in mating experiments with Lactococcus lactis LM2301. Further analysis of L. lactis LM2301 transconjugants showed that the insertion of the transposon Tn916 into the chromosome was site-specific. These studies establish a basis for the initiation of genetic studies in this Leuconostoc species since there are no efficient conjugal or transformation systems previously described for this microorganism.

GeneticsTransposable elementDNA BacterialbiologyGenetic transferLactococcus lactisbiology.organism_classificationMicrobiologyEnterococcus faecalisMicrobiologystomatognathic systemConjugation GeneticGeneticsDNA Transposable ElementsEnterococcus faecalisbacteriaLeuconostocInsertionMatingMolecular BiologyBacteriaLeuconostoc
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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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Sequences homologous to the hobo transposable element in E strains of Drosophila melanogaster.

2001

Hobo is one of the three Drosophila melanogaster transposable elements, together with the P and I elements, that seem to have recently invaded the genome of this species. Surveys of the presence of hobo in strains from different geographical and temporal origins have shown that recently collected strains contain complete and deleted elements with high sequence similarity (H strains), but old strains lack hobo elements (E strains). Besides the canonical hobo sequences, both H and E strains show other poorly known hobo-related sequences. In the present work, we analyze the presence, cytogenetic location, and structure of some of these sequences in E strains of D. melanogaster. By in situ hybr…

GeneticsTransposable elementbiologyEuchromatinBase SequenceChromosome MappingDNASequence Analysis DNAbiology.organism_classificationGenomeChromosomesDrosophila melanogasterSequence Homology Nucleic AcidGeneticsMelanogasterHomologous chromosomeDNA Transposable ElementsAnimalsDrosophila melanogasterMolecular BiologySequence AlignmentEcology Evolution Behavior and SystematicsTransposaseIn Situ HybridizationSequence (medicine)Molecular biology and evolution
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Classification of prokaryotic genetic replicators: between selfishness and altruism

2015

Prokaryotes harbor a variety of genetic replicators, including plasmids, viruses, and chromosomes, each having different effects on the phenotype of the hosting cell. Here, we propose a classification for replicators of bacteria and archaea on the basis of their horizontal-transfer potential and the type of relationships (mutualistic, symbiotic, commensal, or parasitic) that they have with the host cell vehicle. Horizontal movement of replicators can be either active or passive, reflecting whether or not the replicator encodes the means to mediate its own transfer from one cell to another. Some replicators also have an infectious extracellular state, thus separating viruses from other mobil…

GeneticsbiologyGeneral Neurosciencemedia_common.quotation_subjectArchaeal Virusesbiology.organism_classificationPhenotypeGeneral Biochemistry Genetics and Molecular BiologyPlasmidHistory and Philosophy of ScienceEvolutionary biologyDNA Transposable ElementsSelfishnessMobile genetic elementsmedia_commonArchaeaAnnals of the New York Academy of Sciences
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Molecular evolution of P transposable elements in the Genus drosophila. II. The obscura species group.

1998

A phylogenetic analysis of P transposable elements in the Drosophila obscura species group is described. Multiple P sequences from each of 10 species were obtained using PCR primers that flank a conserved region of exon 2 of the transposase gene. In general, the P element phylogeny is congruent with the species phylogeny, indicating that the dominant mode of transmission has been vertical, from generation to generation. One manifestation of this is the distinction of P elements from the Old World obscura and subobscura subgroups from those of the New World affinis subgroup. However, the overall distribution of elements within the obscura species group is not congruent with the phylogenetic …

GeneticsbiologyPhylogenetic treeGenes Insectbiology.organism_classificationPolymerase Chain ReactionP elementEvolution MolecularPhylogeneticsGenusMolecular evolutionHorizontal gene transferGeneticsDNA Transposable ElementsAnimalsDrosophilaDrosophila obscuraDrosophila (subgenus)Molecular BiologyEcology Evolution Behavior and SystematicsPhylogenyJournal of molecular evolution
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Distribution of gypsy sequences in Drosophila species of the obscura subgroup.

2004

Eight Drosophila species of the obscura subgroup were screened for sequences homologous to the gypsy retrotransposon of D. melanogaster. Molecular characterization of gypsy sequences was first approached through digesting genomic DNAs from these obscura species with appropriate restriction enzymes and subjecting them to Southern blot analysis. The results of this analysis indicate that gypsy-homologous sequences are well conserved among species of the obscura subgroup. With the exception of D. guanche, all other species bear a 7 kb Xho I fragment that represents the complete element in D. melanogaster. Lower molecular weight fragments that could be deleted elements, are shared by different …

GeneticsbiologyRestriction MappingNucleic Acid HybridizationRetrotransposonGeneral MedicineDNAbiology.organism_classificationRestriction enzymeBlotting SouthernSpecies SpecificityMolecular evolutionDrosophilidaeGeneticsMelanogasterDNA Transposable ElementsAnimalsDrosophilaDrosophila (subgenus)Southern blotGenomic organizationHereditas
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Taste, movement, and death: varying effects of new prospero mutants during Drosophila development

2003

0022-3034 (Print) Comparative Study Journal Article Research Support, Non-U.S. Gov't; The PGal4 transposon inserted upstream of the pan-neural gene prospero (pros) causes several neural and behavioral defects in the Voila(1) strain. The precise excision of the transposon simultaneously rescued all these defects whereas its unprecise excision created new pros(V) alleles, including the null allele pros(V17). Here, we describe the relationship between the genetic structure of pros locus, larval locomotion, and larval gustatory response. These two behaviors showed varying degrees of variation depending upon the pros allele. We also found a good relation between behavioral alteration, the level …

GenotypeNerve Tissue Proteins/*genetics/metabolismeducationLethalMovement/*physiologyTaste/*geneticsDrosophila melanogaster/embryology/genetics/growth & developmentReaction TimeAnimalsDrosophila ProteinsNeuromuscular Junction/genetics/growth & development/metabolismSouthernLarva/genetics/*growth & developmentAllelesNonmammalianNuclear Proteins/*genetics/metabolismBlottingDevelopmental/physiologyImmunohistochemistryhumanitiesGenomics/methodsDeathInvertebrate/chemistryGene Expression RegulationGenesEmbryoMutationDNA Transposable ElementsGangliaInsectTranscription Factors
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Gypsy homologous sequences in Drosophila subobscura (gypsyDS).

1993

Characterization of sequences homologous to the Drosophila melanogaster gypsy transposable element was carried out in Drosophila subobscura (gypsyDS). They were found to be widely distributed among natural populations of this species. From Southern blot and in situ analyses, these sequences appear to be mobile in this species. GypsyDS sequences are located in both euchromatic and heterochromatic regions. A complete gypsyDS sequence was isolated from a D. subobscura genomic library, and a 1.3-kb fragment which aligns with the ORF2 of the D. melanogaster gypsy element was sequenced. Comparisons of this sequence in three species (D. subobscura, D. melanogaster, and D. virilis) indicate that th…

HeterochromatinMolecular Sequence DataTransfectionHomology (biology)Species SpecificityMolecular evolutionDrosophilidaeSequence Homology Nucleic AcidGeneticsMelanogasterAnimalsAmino Acid SequenceCloning MolecularMolecular BiologyEcology Evolution Behavior and SystematicsSouthern blotGeneticsbiologyBase SequenceSequence Homology Amino AcidNucleic acid sequenceChromosome MappingDNAbiology.organism_classificationBiological EvolutionDrosophila subobscuraDrosophila melanogasterDNA Transposable ElementsDrosophilaJournal of molecular evolution
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A model species for agricultural pest genomics: the genome of the Colorado potato beetle, Leptinotarsa decemlineata (Coleoptera: Chrysomelidae)

2018

AbstractThe Colorado potato beetle is one of the most challenging agricultural pests to manage. It has shown a spectacular ability to adapt to a variety of solanaceaeous plants and variable climates during its global invasion, and, notably, to rapidly evolve insecticide resistance. To examine evidence of rapid evolutionary change, and to understand the genetic basis of herbivory and insecticide resistance, we tested for structural and functional genomic changes relative to other arthropod species using genome sequencing, transcriptomics, and community annotation. Two factors that might facilitate rapid evolutionary change include transposable elements, which comprise at least 17% of the gen…

Male0106 biological sciences0301 basic medicineGenome Insectlcsh:Medicine01 natural sciencesGenomeNucleotide diversityInsecticide Resistancepomme de terreTRIBOLIUM-CASTANEUMlcsh:ScienceLeptinotarsaCYSTEINE PROTEINASESPhylogeny2. Zero hungereducation.field_of_studyGenomeMultidisciplinarybiologyinsecte ravageurEcologyGenètica vegetalAgricultureleptinotarsa decemlineataGenomicsS-TRANSFERASE GENESlutte contre les ravageursColeopteraOther Physical Sciencesphénotypeespèce modèleMultigene FamilyInsect ProteinsRNA InterferenceFemaleBiotechnologyAutre (Sciences du Vivant)Genome evolutiondoryphorecoleopteraEvolutionPopulationPopulationRNA-INTERFERENCEGenomicsGEOGRAPHIC POPULATIONSArticleDNA sequencingHost-Parasite InteractionsEvolution Molecular03 medical and health sciences[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]GeneticsAnimalsanalyse génomiquePest Control BiologicaleducationQH426GeneSolanum tuberosumComparative genomicsbusiness.industrychrysomelidaelcsh:RHuman GenomefungiColorado potato beetlePest controlBiology and Life SciencesMolecularGenetic VariationMolecular Sequence AnnotationBiologicalbiology.organism_classification010602 entomologyGenòmicaGenetics Population030104 developmental biologyGene Expression RegulationDROSOPHILA-MELANOGASTERPROTEINASE-INHIBITORSEvolutionary biologyTRANSPOSABLE ELEMENTSDNA Transposable Elementslcsh:QPest ControlBiochemistry and Cell BiologyPEST analysisCAENORHABDITIS-ELEGANSbusinessInsectTranscription Factors
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Variant toxin B and a functional toxin A produced by Clostridium difficile C34.

2001

A particular property of Clostridium difficile strain C34 is an insertion of approximately 2 kb in the tcdA-C34 gene that does not hinder expression of a fully active TcdA-C34 molecule. Intoxication with TcdA-C34 induced an arborized appearance in eukaryotic cells (D-type cytopathic effect); intoxication with TcdB-C34 induced a spindle-like appearance of cells (S-type cytopathic effect). Inactivation of GTPases with purified toxins revealed that Rho, Rac, Cdc42, and Rap are substrates of TcdA-C34. The variant cytotoxin TcdB-C34 inactivated Rho, Rac, Cdc42, Rap, Ral, and R-Ras. Hence, this is the first ‘S-type’ cytotoxin which inactivates both Rho and R-Ras, and is coexpressed with a ‘D-type…

MaleCell SurvivalBacterial ToxinsClostridium difficile toxin AClostridium difficile toxin BGTPaseEnterotoxinCHO CellsBiologymedicine.disease_causeMicrobiologyMicrobiologyEnterotoxinsBacterial ProteinsCricetinaeGeneticsmedicineAnimalsHumansMolecular BiologyCells CulturedCytopathic effectSkinToxinClostridioides difficileCytotoxinsGenetic VariationClostridium difficileMolecular biologyCdc42 GTP-Binding ProteinDNA Transposable ElementsMicroscopy Electron ScanningFEMS microbiology letters
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