Search results for "Terminal Repeat Sequences"

showing 10 items of 11 documents

The gypsy database (GyDB) of mobile genetic elements: release 2.0

2011

This article introduces the second release of the Gypsy Database of Mobile Genetic Elements (GyDB 2.0): a research project devoted to the evolutionary dynamics of viruses and transposable elements based on their phylogenetic classification (per lineage and protein domain). The Gypsy Database (GyDB) is a long-term project that is continuously progressing, and that owing to the high molecular diversity of mobile elements requires to be completed in several stages. GyDB 2.0 has been powered with a wiki to allow other researchers participate in the project. The current database stage and scope are long terminal repeats (LTR) retroelements and relatives. GyDB 2.0 is an update based on the analys…

0106 biological sciencesProtein domainretroelementsLineage (evolution)[SDV]Life Sciences [q-bio]Retroviridae ProteinsCaulimoviridaeEukaryote evolutioncomputer.software_genrephylogeny01 natural sciencesDatabases GeneticRefSeqPhylogenyPriority journalbase de données0303 health sciencesRetrovirusPhylogenetic treeDatabaseSequence analysisdatabases geneticArticlesClassificationChemistryGenetic lineRetroelementsGenetic databaseComputer programBiologyArticleMobile genetic element03 medical and health sciencesLong terminal repeatWeb pagephylogénieVirus proteinGeneticsLife Science[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyAccess to informationTransposon030304 developmental biologyretroelements;phylogeny;software;terminal repeat sequences;databases geneticHidden Markov modelCauliflower mosaic virusCaulimovirussoftwareRetroposonTerminal Repeat SequencesDNA structureInterspersed Repetitive Sequencesterminal repeat sequencesNonhumanRetroviridaeData analysis softwareGenetic variabilityMobile genetic elementscomputerLENGUAJES Y SISTEMAS INFORMATICOSSoftware010606 plant biology & botanyPhylogenetic nomenclaturePhylogenetic tree
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ICTV Virus Taxonomy Profile: Pseudoviridae

2021

Pseudoviridae is a family of reverse-transcribing viruses with long terminal repeats (LTRs) belonging to the order Ortervirales. Pseudoviruses are commonly found integrated in the genomes of diverse plants, fungi and animals and are broadly known as Ty1/Copia LTR retrotransposons. Inside the cell, they form icosahedral virus particles, but unlike most other viruses, do not have an extracellular phase. This is a summary of the ICTV Report on the family Pseudoviridae, which is available at ictv.global/report/pseudoviridae.

0301 basic medicineINTRetroelementstaxonomy. Abbreviations: CPvirusesLTR030106 microbiologynucleocapsidRetrotransposonGenome ViralVirus Replicationvirus-like particlesGenomeVirusPRRTPPT03 medical and health sciencestaxonomyVirologyVLPRetrovirusesreverse transcriptaseICTV ReportcapsidRNA VirusesPBSVirus classificationbiologyAnimalfungiTerminal Repeat SequencesPseudoviridaeproteasepolypurine tractbiology.organism_classificationVirologyLong terminal repeatlong terminal repeat030104 developmental biology[SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/VirologyRNA ViralintegraseRHNCIctv Virus Taxonomy Profileribonuclease HPseudoviridaeprimer binding site
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Network dynamics of eukaryotic LTR retroelements beyond phylogenetic trees

2009

Abstract Background Sequencing projects have allowed diverse retroviruses and LTR retrotransposons from different eukaryotic organisms to be characterized. It is known that retroviruses and other retro-transcribing viruses evolve from LTR retrotransposons and that this whole system clusters into five families: Ty3/Gypsy, Retroviridae, Ty1/Copia, Bel/Pao and Caulimoviridae. Phylogenetic analyses usually show that these split into multiple distinct lineages but what is yet to be understood is how deep evolution occurred in this system. Results We combined phylogenetic and graph analyses to investigate the history of LTR retroelements both as a tree and as a network. We used 268 non-redundant …

Genetic MarkersRetroelementsvirusesImmunologyGene regulatory networkRetrotransposonCaulimoviridaeBiologyGenomeGeneral Biochemistry Genetics and Molecular BiologyEvolution MolecularPhylogeneticsAnimalsGene Regulatory Networkslcsh:QH301-705.5Ecology Evolution Behavior and SystematicsPhylogenyGeneticsGenomePhylogenetic treeAgricultural and Biological Sciences(all)Biochemistry Genetics and Molecular Biology(all)Applied MathematicsResearchfungiTerminal Repeat Sequencesfood and beveragesEukaryotabiology.organism_classificationLong terminal repeatPhenotypeRetroviridaelcsh:Biology (General)Evolutionary biologyPhylogenetic PatternModeling and SimulationCaulimoviridaeGeneral Agricultural and Biological SciencesBiology Direct
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A mammalian gene evolved from the integrase domain of an LTR retrotransposon.

2001

FIG. 1.—Summary of the structure and coding sequence of the human Gin-1 gene. Sequences of human cDNAs with accession numbers XMp003947.2 (a putative full-length cDNA), BE502574, AW173201.1, AW950418.1, AI631948.1, and AA766836.1 were used to deduce and confirm these data. The full-length protein is 522 amino acids long. The Gin-1 coding region spans nucleotides 36153–15345 in the genomic clone NTp002663.4. Arrowheads and the numbers above them, respectively, indicate the positions and lengths of introns. Several Alu repeats were detected within the two largest introns. Bold letters indicate the region homologous to the most conserved part of the IN domain, detailed in figure 2 and used to …

GeneticsbiologyIntegrasesRetroelementsSequence Homology Amino AcidMolecular Sequence DataTerminal Repeat SequencesAlu elementRetrotransposonGenomeHomology (biology)IntegraseComplementary DNAGeneticsbiology.proteinCoding regionAnimalsHumansAmino Acid SequenceMolecular BiologyGeneSequence AlignmentEcology Evolution Behavior and SystematicsPhylogenyMolecular biology and evolution
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The Gypsy Database (GyDB) of mobile genetic elements.

2007

In this article, we introduce the Gypsy Database (GyDB) of mobile genetic elements, an in-progress database devoted to the non-redundant analysis and evolutionary-based classification of mobile genetic elements. In this first version, we contemplate eukaryotic Ty3/Gypsy and Retroviridae long terminal repeats (LTR) retroelements. Phylogenetic analyses based on the gag-pro-pol internal region commonly presented by these two groups strongly support a certain number of previously described Ty3/Gypsy lineages originally reported from reverse-transcriptase (RT) analyses. Vertebrate retroviruses (Retroviridae) are also constituted in several monophyletic groups consistent with genera proposed by t…

InternetDatabasePhylogenetic treeGenes ViralRetroelementsRetroviridae ProteinsTerminal Repeat SequencesInterspersed Repetitive SequencesArticlesBiologycomputer.software_genreMonophylyUser-Computer InterfaceRetroviridaePhylogeneticsDatabases GeneticGeneticsIdentification (biology)Mobile genetic elementsRetroviridae ProteinscomputerNomenclatureSequence AlignmentPhylogenyNucleic acids research
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Insights into functional aspects of centrins from the structure of N-terminally extended mouse centrin 1

2006

AbstractCentrins are members of the family of Ca2+-binding EF-hand proteins. In photoreceptor cells, centrin isoform 1 is specifically localized in the non-motile cilium. This connecting cilium links the light-sensitive outer segment with the biosynthetic active inner segment of the photoreceptor cell. All intracellular exchanges between these compartments have to occur through this cilium. Three-dimensional structures of centrins from diverse organisms are known, showing that the EF-hand motifs of the N-terminal domains adopt closed conformations, while the C-terminal EF-hand motifs have open conformations. The crystal structure of an N-terminally extended mouse centrin 1 (MmCen1-L) resemb…

Protein ConformationAmino Acid MotifsSequence HomologyPlasma protein bindingEF-handTroponin CMiceStructure-Activity RelationshipProtein structureCalcium-binding proteinConnecting ciliumCentrinAnimalsHumansPhotoreceptor CellsCiliaEF Hand MotifsProtein Structure QuaternaryChemistryEF handCiliumCalcium-Binding ProteinsTerminal Repeat SequencesCalcium-binding proteinSensory SystemsProtein Structure TertiaryCell biologyOphthalmologyCentrinCalciumTransducinsense organsX-ray structureProtein BindingVision Research
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Evolution-guided evaluation of the inverted terminal repeats of the synthetic transposon Sleeping Beauty.

2018

Abstract Sleeping Beauty (SB) is a synthetic Tc1/mariner transposon that is widely used for genetic engineering in vertebrates, including humans. Its sequence was derived from a consensus of sequences found in fish species including the Atlantic salmon (Salmo salar). One of the functional components of SB, the transposase enzyme, has been subject to extensive mutagenesis yielding hyperactive protein variants for advanced applications. The second functional component, the transposon inverted terminal repeats (ITRs), has so far not been extensively modified, mainly due to a lack of natural sequence information. Importantly, as genome sequences become available, they can provide a rich source …

Recombination Geneticlcsh:RSalmo salarTerminal Repeat Sequenceslcsh:MedicineComputational BiologyArticle570 Life sciencesDNA Transposable ElementsAnimalsHumanslcsh:Qlcsh:ScienceGenetic EngineeringMolecular Biology570 BiowissenschaftenScientific reports
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Relationships of gag-pol diversity between Ty3/Gypsy and Retroviridae LTR retroelements and the three kings hypothesis

2008

Abstract Background The origin of vertebrate retroviruses (Retroviridae) is yet to be thoroughly investigated, but due to their similarity and identical gag-pol (and env) genome structure, it is accepted that they evolve from Ty3/Gypsy LTR retroelements the retrotransposons and retroviruses of plants, fungi and animals. These 2 groups of LTR retroelements code for 3 proteins rarely studied due to the high variability – gag polyprotein, protease and GPY/F module. In relation to 3 previously proposed Retroviridae classes I, II and II, investigation of the above proteins conclusively uncovers important insights regarding the ancient history of Ty3/Gypsy and Retroviridae LTR retroelements. Resu…

RetroelementsEvolutionSequence analysisvirusesMolecular Sequence DataRetroviridae ProteinsTy3/Gypsy; Retroviridae; LTR retroelements; Gag-polGene Products gagGene Products polSequence alignmentRetrotransposonEvolution MolecularMonophylySequence Analysis ProteinPhylogeneticsbiology.animalQH359-425Amino Acid SequenceRetroviridae ProteinsPhylogenyEcology Evolution Behavior and SystematicsGenetics:CIENCIAS DE LA VIDA::Genética ::Otras [UNESCO]Polymorphism GeneticPhylogenetic treebiologyTerminal Repeat SequencesVertebratefood and beveragesUNESCO::CIENCIAS DE LA VIDA::Genética ::OtrasIsoenzymesGag-polPhenotypeTy3/GypsyRetroviridaeLTR retroelementsSequence AlignmentResearch Article
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Structural and evolutionary analysis of the copia-like elements in the Arabidopsis thaliana genome.

2001

The analysis of 460 kb of genomic sequence of Arabidopsis thaliana chromosome III allowed us to identify two new transposable elements named AtC1 and AtC2. AtC1 shows identical long terminal repeats (LTRs) and all the structural features characteristic of the copia-like active elements. AtC2 is also a full copia-like element, but a putative stop codon in the open reading frame (ORF) would produce a truncated protein. In order to identify the copia-like fraction of the A. thaliana genome, a careful computer-based analysis of the available sequences (which correspond to 92% of the genome) was performed. Approximately 300 nonredundant copia-like sequences homologous to AtC1 and AtC2 were detec…

Transposable elementDatabases FactualArabidopsisSequence HomologyRetrotransposonBiologyGenomeEvolution MolecularMagnoliopsidaOpen Reading FramesGeneticsArabidopsis thalianaAmino Acid SequenceMolecular BiologyEcology Evolution Behavior and SystematicsPhylogenyExpressed Sequence TagsPhylogenetic treeModels GeneticfungiTerminal Repeat SequencesSequence Analysis DNAModels Theoreticalbiology.organism_classificationStop codonLong terminal repeatOpen reading frameGenesEvolutionary biologyDNA Transposable ElementsSequence AlignmentGenome PlantSoftwareMolecular biology and evolution
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The Norway spruce genome sequence and conifer genome evolution

2013

Conifers have dominated forests for more than 200 million years and are of huge ecological and economic importance. Here we present the draft assembly of the 20-gigabase genome of Norway spruce (Picea abies), the first available for any gymnosperm. The number of well-supported genes (28,354) is similar to the >100 times smaller genome of Arabidopsis thaliana, and there is no evidence of a recent whole-genome duplication in the gymnosperm lineage. Instead, the large genome size seems to result from the slow and steady accumulation of a diverse set of long-terminal repeat transposable elements, possibly owing to the lack of an efficient elimination mechanism. Comparative sequencing of Pinu…

Transposable elementGenome evolutionRNA UntranslatedTranscription GeneticRECOMBINATIONGenomicsGENE FAMILYGenes PlantSEED PLANTSGenomeLONG NONCODING RNASSIZE VARIATIONEvolution MolecularGymnospermBotanyNaturvetenskapGene SilencingRICEPiceaGenome sizePINUSConserved SequenceWhole genome sequencingInternetMultidisciplinarybiologyTerminal Repeat SequencesBiology and Life SciencesPicea abiesGenomicsSequence Analysis DNALINEAGEbiology.organism_classificationIntronsPhenotypeDNA Transposable ElementsTRANSPOSABLE ELEMENTSORYZA-SATIVANatural SciencesGenome Plant
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