Search results for "capsid"

showing 10 items of 248 documents

Author response: Globally defining the effects of mutations in a picornavirus capsid

2021

CapsidPicornavirusBiologybiology.organism_classificationVirology

Release of canine parvovirus from endocytic vesicles

2003

Canine parvovirus (CPV) is a small nonenveloped virus with a single-stranded DNA genome. CPV enters cells by clathrin-mediated endocytosis and requires an acidic endosomal step for productive infection. Virion contains a potential nuclear localization signal as well as a phospholipase A(2) like domain in N-terminus of VP1. In this study we characterized the role of PLA(2) activity on CPV entry process. PLA(2) activity of CPV capsids was triggered in vitro by heat or acidic pH. PLA(2) inhibitors inhibited the viral proliferation suggesting that PLA(2) activity is needed for productive infection. The N-terminus of VP1 was exposed during the entry, suggesting that PLA(2) activity might have a …

Cell Membrane PermeabilityTransferrin receptorParvovirus CanineMembrane permeabilizationEndosomeanimal diseasesvirusesEndocytic cycleEntryBiologyEndocytosisPhospholipases AParvovirusAmiloridechemistry.chemical_compoundCapsidPhospholipase A2VirologyReceptors TransferrinmedicineAnimalsMonensinTransport VesiclesBrefeldin AVesicleBafilomycinDextransBrefeldin ALipid MetabolismEndocytosisAmilorideCell biologyEndocytic vesiclechemistryCatsCapsid ProteinsMacrolidesBafilomycin A1Lysosomesmedicine.drugVirology

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Characterization of a nuclear localization signal of canine parvovirus capsid proteins.

1998

We investigated the abilities of synthetic peptides mimicking the potential nuclear localization signal of canine parvovirus (CPV) capsid proteins to translocate a carrier protein to the nucleus following microinjection into the cytoplasm of A72 cells. Possible nuclear localization sequences were chosen for synthesis from CPV capsid protein sequences (VP1, VP2) on the basis of the presence of clustered basic residues, which is a common theme in most of the previously identified targeting peptides. Nuclear targeting activity was found within the N-terminal residues 4-13 (PAKRARRGYK) of the VP1 capsid protein. While replacement of Arg10 with glycine did not affect the activity, replacement of…

Cell NucleusParvovirus CanineWheat Germ AgglutininsvirusesNuclear Localization SignalsTemperatureBiological TransportBiologyBiochemistryWheat germ agglutininCell nucleusmedicine.anatomical_structureAdenosine TriphosphateCapsidDogsBiochemistryCapsidCytoplasmmedicineTumor Cells CulturedAnimalsNuclear proteinNuclear transportNuclear poreNuclear localization sequenceEuropean journal of biochemistry

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Concepts to Reveal Parvovirus–Nucleus Interactions

2021

Parvoviruses are small single-stranded (ss) DNA viruses, which replicate in the nucleoplasm and affect both the structure and function of the nucleus. The nuclear stage of the parvovirus life cycle starts at the nuclear entry of incoming capsids and culminates in the successful passage of progeny capsids out of the nucleus. In this review, we will present past, current, and future microscopy and biochemical techniques and demonstrate their potential in revealing the dynamics and molecular interactions in the intranuclear processes of parvovirus infection. In particular, a number of advanced techniques will be presented for the detection of infection-induced changes, such as DNA modification…

Cell Nucleusanalysis of virus–chromatin interactionsHost Microbial InteractionsviruksetparvovirusesvirusesnucleusReviewmikroskopiaanalysis of protein–protein interactionsVirus ReplicationinfektiotMicrobiologyimaging of viral interactions and dynamicsQR1-502Parvoviridae InfectionsParvovirusMicekuvantaminentumaAnimalsHumansCapsid ProteinsproteiinitparvoviruksetViruses

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Inorganic Nanoparticle as a Carrier for Hepatitis B Viral Capsids

2011

Virus like particles (VLP) are used to transport immune response-modulating agents to target cells to treat them. In order to deliver a high concentration of VLP to the cell, a number of VLP can be attached to a nanoparticle to be used as a nanolorry. In this study, SiO2 nanoparticles were attached to Hepatitis B VLP. Spectrophotometry measurements, electron, and fluorescent microscopy evidence showed that the SiO2 – Hepatitis B VLP complexes were formed.

Chemistryvirusesvirus diseasesNanoparticleHepatitis Bmedicine.diseasecomplex mixturesVirologyVirusImmune systemCapsidSio2 nanoparticlesmedicineFluorescence microscopeHepatitis b viral

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Reorganization of Nuclear Domain 10 Induced by Papillomavirus Capsid Protein L2

2002

AbstractNuclear domains (ND) 10 are associated with proteins implicated in transcriptional regulation, growth suppression, and apoptosis. We now show that the minor capsid protein L2 of human papillomavirus (HPV) type 33 induces a reorganization of ND10-associated proteins. Whereas the promyelocytic leukemia protein, the major structural component of ND10, was unaffected by L2, Sp100 was released from ND10 upon L2 expression. The total cellular amount of Sp100, but not of Sp100 mRNA, decreased significantly, suggesting degradation of Sp100. Proteasome inhibitors induced the dispersal of Sp100 and inhibited the nuclear translocation of L2. In contrast to Sp100, Daxx was recruited to ND10 by …

Co-Repressor ProteinsImmunoprecipitationFluorescent Antibody TechniqueVaccinia virusPromyelocytic Leukemia ProteinAutoantigenspapillomavirusCell LinePromyelocytic leukemia proteinCapsidDeath-associated protein 6DaxxVirologyHumansSp100RNA MessengerAdaptor Proteins Signal TransducingCell NucleusRecombination GeneticbiologyTumor Suppressor ProteinsIntracellular Signaling Peptides and ProteinsNuclear ProteinsND10Signal transducing adaptor proteinAntigens NuclearOncogene Proteins ViralL2biochemical phenomena metabolism and nutritionBlotting NorthernMolecular biologyNeoplasm ProteinsTransport proteinCell biologyProtein TransportProteasomeCapsidbiology.proteinRNACapsid ProteinsFemaleCarrier ProteinsCo-Repressor ProteinsMolecular ChaperonesTranscription FactorsVirology

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Further Evidence that Papillomavirus Capsids Exist inTwo DistinctConformations

2003

ABSTRACT Cell surface heparan sulfate proteoglycans (HSPGs) serve as primary attachment receptors for human papillomaviruses (HPVs). To demonstrate that a biologically functional HPV-receptor interaction is restricted to a specific subset of HSPGs, we first explored the role of HSPG glucosaminoglycan side chain modifications. We demonstrate that HSPG O sulfation is essential for HPV binding and infection, whereas de-N-sulfated heparin interfered with VLP binding but not with HPV pseudoinfection. This points to differences in VLP-HSPG and pseudovirion-HSPG interactions. Interestingly, internalization kinetics of VLPs and pseudovirions, as measured by fluorescence-activated cell sorting analy…

Conformational changeProtein Conformationvirusesmedia_common.quotation_subjectImmunologyReplicationBiologyAntibodies ViralMicrobiologyEpitopeEpitopesMiceCapsidProtein structureNeutralization TestsVirologyChlorocebus aethiopsAnimalsHumansReceptorInternalizationPapillomaviridaemedia_commonCOS cellsVirionAntibodies MonoclonalCell sortingFlow CytometryMolecular biologyCell biologycarbohydrates (lipids)CapsidInsect ScienceCOS CellsReceptors VirusCapsid ProteinsHeparan Sulfate ProteoglycansJournal of Virology

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Fluorescent nanodiamonds encapsulated byCowpea Chlorotic Mottle Virus(CCMV) proteins for intracellular 3D-trajectory analysis

2021

Long-term tracking of nanoparticles to resolve intracellular structures and motions is essential to elucidate fundamental parameters as well as transport processes within living cells. Fluorescent nanodiamond (ND) emitters provide cell compatibility and very high photostability. However, high stability, biocompatibility, and cellular uptake of these fluorescent NDs under physiological conditions are required for intracellular applications. Herein, highly stable NDs encapsulated with Cowpea chlorotic mottle virus capsid proteins (ND-CP) are prepared. A thin capsid protein layer is obtained around the NDs, which imparts reactive groups and high colloidal stability, while retaining the opto-ma…

Cowpea chlorotic mottle virusbiologyBiocompatibilityChemistryBiomedical EngineeringUT-Hybrid-DNanoparticle02 engineering and technologyGeneral ChemistryGeneral Medicine010402 general chemistry021001 nanoscience & nanotechnologybiology.organism_classificationEndocytosis01 natural sciencesExocytosis0104 chemical sciences3. Good healthCapsidBiophysicsGeneral Materials Science0210 nano-technologyNanodiamondIntracellular

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ICTV Virus Taxonomy Profile: Cystoviridae

2017

The family Cystoviridae includes enveloped viruses with a tri-segmented dsRNA genome and a double-layered protein capsid. The innermost protein shell is a polymerase complex responsible for genome packaging, replication and transcription. Cystoviruses infect Gram-negative bacteria, primarily plant-pathogenic Pseudomonas syringae strains. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the taxonomy of the Cystoviridae, which is available at http://www.ictv.global/report/cystoviridae.

Cystoviridae0301 basic medicinebacteriophagesGenes Viralviruksetviruses030106 microbiologyGenome ViralVirus ReplicationGenomebakteriofagitICTVtaxonomy03 medical and health sciencesViral envelopeVirologyGram-Negative BacteriaPseudomonas syringaevirusesPseudomonas phage phi6PolymeraseVirus classificationbiologyta1183Bacteriophage phi 6VirologyICTV Virus Taxonomy Profiles3. Good health030104 developmental biologyCapsidViral replicationbiology.proteinPhageRNA ViralCapsid ProteinsJournal of General Virology

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DNA binding of L1 is required for human papillomavirus morphogenesis in vivo.

2002

AbstractThe role of putative DNA-binding domains of human papillomavirus (HPV) capsid proteins for DNA encapsidation in vivo is still unknown. We have now analyzed mutants of the major capsid protein L1 of HPV type 33, which are defective for DNA binding, for their ability to encapsidate DNA using an in vivo packaging approach. Since the DNA-binding domain and the nuclear localization signal (NLS) of L1 overlap, both a carboxy-terminal deletion mutant (L1-1/470) and a substitution mutant (L1-1/477M9) were analyzed. L1-1/477M9 has the classical NLS replaced by a noncanonical NLS taken from the human hnRNP protein A1. The mutant proteins were defective for DNA binding in contrast to wild-type…

CytoplasmHMG-boxMutantBiologyKidneypapillomavirusCell Linechemistry.chemical_compoundCapsidVirologyHumansPoint MutationDNA bindingPapillomaviridaeInfectivityCell NucleusVirus AssemblypseudovirionsL1DNA encapsidationMolecular biologyChromatinDNA-Binding ProteinschemistryCapsidCytoplasmDNA ViralchromatinDNANuclear localization sequenceVirology

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