Search results for "coat protein"

showing 6 items of 16 documents

Genetic variability and evolutionary analysis of parietaria mottle virus: role of selection and genetic exchange

2015

[EN] The genetic variability and evolution of parietaria mottle virus (PMoV) of the genus Ilarvirus was studied by analyzing nucleotide sequences of 2b and CP genes from isolates collected in different countries. Phylogenetic analysis showed that PMoV isolates clustered in different clades: one (clade I) composed of only Italian isolates and three clades (clades II-IV) including the Spanish isolates. The Greek isolate GrT-1 used in this study was in clade IV for the CP phylogenetic tree whereas it formed a separate branch in the 2b phylogenetic tree. The nucleotide sequence diversity of both the 2b and CP genes was low (0.062 +/- A 0.006 and 0.063 +/- A 0.006 for 2b and CP, respectively) bu…

Nonsynonymous substitutionRNA virusesPopulation geneticsMovementMolecular Sequence DataPopulation geneticsBiologyIlarvirusTomatoEvolution MolecularPhylogeneticsVirologyRatesGenetic variationMosaic virusSequencePRODUCCION VEGETALGenetic variabilityOriginsCladePhylogenyPlant DiseasesIlarvirusGeneticsCoat proteinPhylogenetic treeparietaria mottle virus genetic exchange evolutionary analysisGenetic VariationSettore AGR/12 - Patologia VegetaleMICROBIOLOGIAGeneral Medicinebiology.organism_classificationVirologyBiological EvolutionRecombinationParietariaCapsid Proteins
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Putative p24 complexes in Arabidopsis contain members of the delta and beta subfamilies and cycle in the early secretory pathway

2013

p24 proteins are a family of type I membrane proteins localized to compartments of the early secretory pathway and to coat protein I (COPI)- and COPII-coated vesicles. They can be classified, by sequence homology, into four subfamilies, named p24α, p24β, p24γ, and p24δ. In contrast to animals and fungi, plants contain only members of the p24β and p24δ subfamilies, the latter probably including two different subclasses. It has previously been shown that transiently expressed red fluorescent protein (RFP)-p24δ5 (p24δ1 subclass) localizes to the endoplasmic reticulum (ER) at steady state as a consequence of highly efficient COPI-based recycling from the Golgi apparatus. It is now shown that tr…

PhysiologyArabidopsisGolgi ApparatusPlant ScienceEndoplasmic ReticulumGreen fluorescent proteinsymbols.namesakeArabidopsisImmunoprecipitationER–Golgi transportcoat protein II (COPII)Secretory pathwayMicroscopy ConfocalSecretory PathwaybiologyArabidopsis ProteinsEndoplasmic reticulumcoat protein I (COPI)COPIImmunogold labellingGolgi apparatussecretory pathway.biology.organism_classificationImmunohistochemistryCell biologyMicroscopy Electronp24 proteinsMembrane proteinsymbolsResearch PaperPlasmidsJournal of Experimental Botany
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Coupled transport of Arabidopsis p24 proteins at the ER–Golgi interface

2012

p24 proteins are a family of type I membrane proteins localized to compartments of the early secretory pathway and to coat protein I (COPI)- and COPII-coated vesicles. They can be classified, by sequence homology, into four subfamilies, named p24α, p24β, p24γ, and p24δ. In contrast to animals and fungi, plants contain only members of the p24β and p24δ subfamilies. It has previously been shown that transiently expressed red fluorescent protein (RFP)–p24δ5 localizes to the endoplasmic reticulum (ER) as a consequence of highly efficient COPI-based recycling from the Golgi apparatus. Using specific antibodies, endogenous p24δ5 has now been localized to the ER and p24β2 to the Golgi apparatus in…

PhysiologyMolecular Sequence DataArabidopsisGolgi ApparatusPlant ScienceBiologyEndoplasmic Reticulumcoat protein (COP) IIcoat protein (COP) Isymbols.namesakeAmino Acid SequenceER–Golgi transportCOPIISecretory pathwayArabidopsis ProteinsVesicular-tubular clusterEndoplasmic reticulumMembrane ProteinsCOPIGolgi apparatussecretory pathwayTransport proteinCell biologyProtein TransportSecretory proteinp24 proteinssymbolsProtein BindingResearch PaperJournal of Experimental Botany
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Arabidopsis p24δ5 and p24δ9 facilitate Coat Protein I-dependent transport of the K/HDEL receptor ERD2 from the Golgi to the endoplasmic reticulum.

2014

The p24 proteins belong to a family of type I membrane proteins which cycle between the endoplasmic reticulum (ER) and Golgi via coat protein I (COPI) and COPII vesicles. Current nomenclature classifies them into four subfamilies, although plant p24 proteins belong to either the p24β or the p24δ subfamilies. Here, we show that Arabidopsis p24δ5/δ9 and HDEL ligands shift the steady-state distribution of the K/HDEL receptor ERD2 from the Golgi to the ER. We also show that p24δ5/δ9 interact directly with ERD2. This interaction requires the Golgi dynamics (GOLD) domain in p24δ5 and is much higher at acidic than at neutral pH, consistent with both proteins interacting at the cis-Golgi. In additi…

Receptors PeptideArabidopsisGolgi ApparatusPlant ScienceBiologyEndoplasmic ReticulumCoat Protein Complex Isymbols.namesakeGeneticsAnimalsSecretionCOPIIVesicular-tubular clusterArabidopsis ProteinsEndoplasmic reticulumMembrane ProteinsCell BiologyCOPIGolgi apparatusCell biologyTransport proteinDNA-Binding ProteinsProtein TransportMembrane proteinsymbolsTranscription FactorsThe Plant journal : for cell and molecular biology
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Mapping antigenic epitopes of potato virus Y with antibodies affinity-purified by using overlapping synthetic peptides

1994

Synthetic, overlapping peptides representing the entire amino acid sequence of potato virus Y (PVY) coat protein were used to affinity-purify antibodies from polyclonal antisera to PVY. In testing the binding of the purified antibodies to PVY particles, antigenic epitopes were identified. The N-terminal and C-terminal regions of the PVY coat protein were found to contain most of the antigenic epitopes. The results will facilitate the development of detection methods for PVY based on synthetic peptides.

chemistry.chemical_classificationbiologylcsh:SPeptidekasviviruksetbiology.organism_classificationSolanum tuberosumlcsh:S1-972VirologyPVYEpitopelcsh:AgriculturePepscanPotato virus YchemistryAntigencoat proteinbiology.proteinlcsh:Agriculture (General)AntibodyFood ScienceAgricultural and Food Science
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Crystallization and preliminary crystallographic analysis of the major capsid proteins VP16 and VP17 of bacteriophage P23-77.

2012

The major capsid proteins VP16 and VP17 of bacteriophage P23-77 have been crystallized using both recombinant and purified virus and preliminary diffraction analyses have been performed.

kapsidiproteiinitcongenital hereditary and neonatal diseases and abnormalitiesLineage (genetic)bacteriophagescrystallizationIcosahedral symmetryvirusesBiophysicsBacteriophage P23-77major coat proteinsCrystallography X-RayBiochemistrycapsid proteinsbakteriofagitlaw.inventionBacteriophage03 medical and health sciencesStructural BiologylawGeneticsCoat ProteinsCrystallizationskin and connective tissue diseasesdouble beta-barrel viral lineage030304 developmental biology0303 health sciencesbiologybakteriofaagit030306 microbiologyThermus thermophilusta1183ta1182Thermus thermophilusbiochemical phenomena metabolism and nutritionCondensed Matter Physicsbiology.organism_classification3. Good healthCrystallographyCapsidCrystallization CommunicationsRecombinant DNAhealth occupationsCapsid ProteinsCrystallization
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