Search results for "Mutation"

showing 10 items of 2830 documents

Compte rendu de : Rod Phillips, French Wine. A History, Oakland (California), University of California Press, 2016, 335 p.

2017

Oakland (California), University of California Press, 2016, 335 p.; National audience

vignoblehistoire des mondes du vin[ SHS.HIST ] Humanities and Social Sciences/History[SHS.HIST] Humanities and Social Sciences/Historycrises et mutationsvintemps long[SHS.HIST]Humanities and Social Sciences/HistoryvigneComputingMilieux_MISCELLANEOUS
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Nonlinearities in plant RNA virus fitness

2012

Una de las mayores amenazas tanto para la salud humana y animal, como para la agronomía es la emergencia de nuevas enfermedades infecciosas, la mayoría de las cuales están causadas por los virus de RNA. La emergencia viral es un problema complejo que consista en la adquisición de la variación genética, por mutación o recombinación, dentro de la población viral en el huésped reservorio la cual podría facilitar la capacidad de infectar de manera eficiente nuevos huéspedes. Los virus de RNA presentan a una evolucionabilidad extraordinaria por sus grandes tamaños poblacionales, cortos tiempos de generación y altas tasas de mutación y recombinación. Comprender los mecanismos evolutivos que podrí…

virus evolutionepistasisgenome architecturegenotype-by-environmentUNESCO::CIENCIAS DE LA VIDA::Otras especialidades de la biologíafitness landscapesEmerging viruses; RNA viruses; Tobacco etch virus; Viral fitness; Generalism vs. specialism; Genotype-by-environment (G×E) interactions; Epistasis; Adaptive fitness landscapesdeleterious mutations:CIENCIAS DE LA VIDA::Virología [UNESCO]UNESCO::CIENCIAS DE LA VIDA::Genética ::Genética de poblacionesemerging viruses:CIENCIAS DE LA VIDA::Genética ::Genética de poblaciones [UNESCO]UNESCO::CIENCIAS DE LA VIDA::Virología:CIENCIAS DE LA VIDA::Otras especialidades de la biología [UNESCO]
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Biochemical and structural analysis of the NS5B RNA-dependent RNA polymerase of the hepatitis C virus.

2000

Hepatitis C virus (HCV), the major causative agent of chronic and sporadic non-A, non-B hepatitis worldwide, is a distinct member of the Flaviviridae virus family. These viruses have in common a plus-strand RNA genome that is replicated in the cytoplasm of the infected cell via minus-strand RNA intermediates. Owing to the lack of reliable cell culture systems and convenient animal models for HCV, the mechanisms governing RNA replication are not known. As a first step towards the development of appropriate in vitro systems, we expressed the NS5B RNA-dependent RNA polymerase (RdRp) in insect cells, purified the protein to near homogeneity and studied its biochemical properties. It is a primer…

virusesHepatitis C virusGenetic VectorsRNA-dependent RNA polymeraseHepacivirusViral Nonstructural Proteinsmedicine.disease_causeCell LineSubstrate Specificitychemistry.chemical_compoundTranscription (biology)Sequence Analysis ProteinVirologyRNA polymeraseRibavirinmedicineHumansNS5BPolymeraseHepatologybiologyRNANucleosidesDNA-Directed RNA PolymerasesRNA-Dependent RNA PolymeraseVirologyRecombinant ProteinsNS2-3 proteaseInfectious DiseaseschemistryMutationbiology.proteinRNABaculoviridaeJournal of viral hepatitis
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Nuclear localization but not PML protein is required for incorporation of the papillomavirus minor capsid protein L2 into virus-like particles.

2004

ABSTRACT Recent reports suggest that nuclear domain(s) 10 (ND10) is the site of papillomavirus morphogenesis. The viral genome replicates in or close to ND10. In addition, the minor capsid protein, L2, accumulates in these subnuclear structures and recruits the major capsid protein, L1. We have now used cell lines deficient for promyelocytic leukemia (PML) protein, the main structural component of ND10, to study the role of this nuclear protein for L2 incorporation into virus-like particles (VLPs). L2 expressed in PML protein knockout (PML −/− ) cells accumulated in nuclear dots, which resemble L2 aggregates forming at ND10 in PML protein-containing cells. These L2 assemblies also attracted…

virusesImmunologyActive Transport Cell NucleusNuclear dotsBiologyPromyelocytic Leukemia ProteinMicrobiologyCell LinePromyelocytic leukemia proteinMiceDeath-associated protein 6Virus-like particleVirologymedicineAnimalsHumansNuclear proteinPapillomaviridaeAdaptor Proteins Signal TransducingCell NucleusTumor Suppressor ProteinsStructure and AssemblyIntracellular Signaling Peptides and ProteinsVirionvirus diseasesNuclear ProteinsOncogene Proteins Viralbiochemical phenomena metabolism and nutritionMolecular biologyCell biologyNeoplasm ProteinsCell nucleusMicroscopy Electronmedicine.anatomical_structureInsect ScienceMutationbiology.proteinCapsid ProteinsNuclear transportCarrier ProteinsCo-Repressor ProteinsNuclear localization sequenceMolecular ChaperonesTranscription FactorsJournal of virology
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Enhancement of hepatitis C virus RNA replication by cell culture-adaptive mutations.

2001

ABSTRACT Studies of the Hepatitis C virus (HCV) replication cycle have been made possible with the development of subgenomic selectable RNAs that replicate autonomously in cultured cells. In these replicons the region encoding the HCV structural proteins was replaced by the neomycin phosphotransferase gene, allowing the selection of transfected cells that support high-level replication of these RNAs. Subsequent analyses revealed that, within selected cells, HCV RNAs had acquired adaptive mutations that increased the efficiency of colony formation by an unknown mechanism. Using a panel of replicons that differed in their degrees of cell culture adaptation, in this study we show that adaptive…

virusesImmunologyCell Culture TechniquesRNA-dependent RNA polymeraseReplicationHepacivirusBiologyViral Nonstructural ProteinsOrigin of replicationVirus ReplicationMicrobiologyReplication factor CControl of chromosome duplicationGenes ReporterVirologyTumor Cells CulturedHumansRepliconLuciferasesGeneRNAVirologyAdaptation PhysiologicalViral replicationInsect ScienceMutationRNA ViralRepliconJournal of virology
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Papillomavirus assembly requires trimerization of the major capsid protein by disulfides between two highly conserved cysteines.

1998

ABSTRACT We have used viruslike particles (VLPs) of human papillomaviruses to study the structure and assembly of the viral capsid. We demonstrate that mutation of either of two highly conserved cysteines of the major capsid protein L1 to serine completely prevents the assembly of VLPs but not of capsomers, whereas mutation of all other cysteines leaves VLP assembly unaffected. These two cysteines form intercapsomeric disulfides yielding an L1 trimer. Trimerization comprises about half of the L1 molecules in VLPs but all L1 molecules in complete virions. We suggest that trimerization of L1 is indispensable for the stabilization of intercapsomeric contacts in papillomavirus capsids.

virusesImmunologyTrimerBiologymedicine.disease_causeMicrobiologycomplex mixturesSerineCapsidVirologyAnimal VirusesmedicineCysteineDisulfidesPapillomaviridaeMutationVirus AssemblyCapsomereVirionvirus diseasesbiochemical phenomena metabolism and nutritionMolecular biologyCapsidInsect ScienceMutationBiophysicsCysteineJournal of virology
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Molecular Characterization of a Variant of Bacillus anthracis-Specific Phage AP50 with Improved Bacteriolytic Activity▿ †

2008

ABSTRACT The genome sequence of a Bacillus anthracis -specific clear plaque mutant phage, AP50c, contains 31 open reading frames spanning 14,398 bp, has two mutations compared to wild-type AP50t, and has a colinear genome architecture highly similar to that of gram-positive Tectiviridae phages. Spontaneous AP50c-resistant B. anthracis mutants exhibit a mucoid colony phenotype.

virusesMutantMolecular Sequence DataMutation MissenseGenetics and Molecular BiologyBacillus PhagesGenome ViralViral Plaque AssayApplied Microbiology and BiotechnologySyntenyBacteriophageBacteriolysisGene OrderPoint MutationBacillus (shape)Whole genome sequencingGeneticsEcologybiologyBase SequenceTectivirusVirionSequence Analysis DNAbiology.organism_classificationBacillus anthracisOpen reading frameBacillus anthracisDNA ViralTectiviridaeFood ScienceBiotechnologyTectiviridae
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PTC124-mediated translational readthrough of a nonsense mutation causing Usher syndrome type 1C.

2011

We investigated the therapeutic potential of the premature termination codon (PTC) readthrough-inducing drug PTC124 in treating the retinal phenotype of Usher syndrome, caused by a nonsense mutation in the USH1C gene. Applications in cell culture, organotypic retina cultures, and mice in vivo revealed significant readthrough and the recovery of protein function. In comparison with other readthrough drugs, namely the clinically approved readthrough-inducing aminoglycoside gentamicin, PTC124 exhibits significant better retinal biocompatibility. Its high readthrough efficiency in combination with excellent biocompatibility makes PTC124 a promising therapeutic agent for PTCs in USH1C, as well a…

virusesUsher syndromeGenetic enhancementNonsense mutationGenetic VectorsCell Cycle ProteinsRetina03 medical and health scienceschemistry.chemical_compoundMice0302 clinical medicineIn vivootorhinolaryngologic diseasesGeneticsmedicineAnimalsHumansMolecular BiologyCells Cultured030304 developmental biologyAdaptor Proteins Signal TransducingGenetics0303 health sciencesOxadiazolesbusiness.industryfungiAminoglycosideTranslational readthroughmedicine.diseasePhenotype3. Good healthAtalurenMice Inbred C57BLCytoskeletal ProteinsLuminescent ProteinsElectroporationchemistryMicroscopy FluorescenceCodon NonsenseCancer researchMolecular MedicineGentamicinsbusinessUsher Syndromes030217 neurology & neurosurgeryHuman gene therapy
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Why viruses sometimes disperse in groups?

2019

AbstractMany organisms disperse in groups, yet this process is understudied in viruses. Recent work, however, has uncovered different types of collective infectious units, all of which lead to the joint delivery of multiple viral genome copies to target cells, favoring co-infections. Collective spread of viruses can occur through widely different mechanisms, including virion aggregation driven by specific extracellular components, cloaking inside lipid vesicles, encasement in protein matrices, or binding to cell surfaces. Cell-to-cell viral spread, which allows the transmission of individual virions in a confined environment, is yet another mode of clustered virus dissemination. Nevertheles…

viruses[SDV]Life Sciences [q-bio]Viral transmissionReview ArticleBiologyGenomeMicrobiologyVirus03 medical and health sciencesMultiplicity of infectionviral spreadVirologydispersal030304 developmental biology0303 health sciencesTransmission (medicine)collective infectious unit030306 microbiologyviral transmissionMutation AccumulationGeographyEvolutionary biologyBiological dispersalmultiplicity of infectionViral spreadCorrigendumVirus Evolution
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SARS-CoV-2 envelope protein topology in eukaryotic membranes

2020

Coronavirus E protein is a small membrane protein found in the virus envelope. Different coronavirus E proteins share striking biochemical and functional similarities, but sequence conservation is limited. In this report, we studied the E protein topology from the new SARS-CoV-2 virus both in microsomal membranes and in mammalian cells. Experimental data reveal that E protein is a single-spanning membrane protein with the N-terminus being translocated across the membrane, while the C-terminus is exposed to the cytoplasmic side (Nt lum /Ct cyt ). The defined membrane protein topology of SARS-CoV-2 E protein may provide a useful framework to understand its interaction with other viral and ho…

virusescoronavirusmedicine.disease_causeViral Envelope Proteinsmembrane insertionPeptide sequencelcsh:QH301-705.5Topology (chemistry)PhylogenyCoronavirusMutationChemistryGeneral NeuroscienceProteïnes de membranaEukaryotavirus diseases129Recombinant ProteinsCell biologysars-cov-2MembraneProtein topologyCoronavirus InfectionsResearch Article1001topologyPneumonia ViralImmunologySequence alignmentBiologyTopologiaVirusGeneral Biochemistry Genetics and Molecular BiologyBetacoronavirusCoronavirus Envelope ProteinsViral envelopeMicrosomesmedicineHumansAmino Acid SequencePandemicsResearchCell MembraneCOVID-1915envelope proteinMembrane proteinlcsh:Biology (General)CytoplasmMutationSequence AlignmentOpen Biology
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