HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
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Exosomes in Human Immunodeficiency Virus Type I Pathogenesis: Threat or Opportunity?Electrochemistry of nonconjugated proteins and glycoproteins. Toward sensors for biomedicine and glycomicsGlycans, galectins, and HIV-1 infectionSialoglycoproteins and N-glycans from secreted exosomes of ovarian carcinoma cellsHigh mannose-binding lectin with preference for the cluster of alpha1-2-mannose from the green alga Boodlea coacta is a potent entry inhibitor of HIV-1 and influenza viruses.HIV and mature dendritic cells: Trojan exosomes riding the Trojan horse?Humoral response to a viral glycan correlates with survival on PROSTVAC-VFHIV-1 gp41 and TCRalpha trans-membrane domains share a motif exploited by the HIV virus to modulate T-cell proliferationProtein targeting to exosomes/microvesicles by plasma membrane anchorsInteraction and uptake of exosomes by ovarian cancer cells.Membrane vesicles, current state-of-the-art: emerging role of extracellular vesicles.HIV Pol inhibits HIV budding and mediates the severe budding defect of Gag-Pol.HIV-1 Intersection with CD4 T Cell Vesicle Exocytosis: Intercellular Communication Goes ViralStandardization of sample collection, isolation and analysis methods in extracellular vesicle research.Complex N-linked glycans serve as a determinant for exosome/microvesicle cargo recruitment.Identification of an inhibitory budding signal that blocks the release of HIV particles and exosome/microvesicle proteins.Photo-click immobilization on quartz crystal microbalance sensors for selective carbohydrate-protein interaction analyses.Surface glycosylation profiles of urine extracellular vesiclesGlycome diagnosis of human induced pluripotent stem cells using lectin microarray.N-linked (N-) glycoproteomics of urinary exosomes. [Corrected].Galectin-1 binds to influenza virus and ameliorates influenza virus pathogenesis.Biological properties of extracellular vesicles and their physiological functions.Biogenesis of the posterior pole is mediated by the exosome/microvesicle protein-sorting pathway.Circulating membrane-derived microvesicles in redox biology.Microparticles as immune regulators in infectious disease - an opinionTranslational research in infectious disease: current paradigms and challenges ahead.Photogenerated lectin sensors produced by thiol-ene/yne photo-click chemistry in aqueous solutionExtracellular Vesicles from Ovarian Carcinoma Cells Display Specific Glycosignatures.Identification of a conserved glycan signature for microvesicles.Lectin binding of human sperm associates with DEFB126 mutation and serves as a potential biomarker for subfertilityNanoscale controlled architecture for development of ultrasensitive lectin biosensors applicable in glycomics.Dot by dot: analyzing the glycome using lectin microarraysPsoriatic T cells recognize neolipid antigens generated by mast cell phospholipase delivered by exosomes and presented by CD1aUnprecedented glycosidase activity at a lectin carbohydrate-binding site exemplified by the cyanobacterial lectin MVL.Glycomic analysis: an array of technologies.A strategy for discovery of cancer glyco-biomarkers in serum using newly developed technologies for glycoproteomics.Glycan array: a powerful tool for glycomics studies.Comprehensive profiling of accessible surface glycans of mammalian sperm using a lectin microarray.Lectin-based structural glycomics: a practical approach to complex glycans.Toward automated oligosaccharide synthesis.
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HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
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article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 22 February 2009
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
@en
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
@nl
type
label
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
@en
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
@nl
prefLabel
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
@en
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin.
@nl
P2093
P2860
P356
P1476
HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin
@en
P2093
Alex B Preston
Julian W Bess
Kunio Nagashima
Lara K Mahal
P2860
P2888
P304
P356
10.1038/NCHEMBIO.151
P577
2009-02-22T00:00:00Z