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Live imaging of mouse endogenous neural progenitors migrating in response to an induced tumor.Residual CTAB Ligands as Mass Spectrometry Labels to Monitor Cellular Uptake of Au Nanorods.Plasmonic Surfaces for Cell Growth and Retrieval Triggered by Near-Infrared LightPregnancy Vaccination with Gold Glyco-Nanoparticles Carrying Listeria monocytogenes Peptides Protects against Listeriosis and Brain- and Cutaneous-Associated Morbidities.Glyconanoparticles: multifunctional nanomaterials for biomedical applications.Carbohydrate-based nanoparticles for potential applications in medicine.Glyconanoparticles as multifunctional and multimodal carbohydrate systems.Targeted gold-coated iron oxide nanoparticles for CD163 detection in atherosclerosis by MRI.Glycans as biofunctional ligands for gold nanorods: stability and targeting in protein-rich media.Detection of mouse endogenous type B astrocytes migrating towards brain lesions.GNP-GAPDH1-22 nanovaccines prevent neonatal listeriosis by blocking microglial apoptosis and bacterial dissemination.68Ga-labeled gold glyconanoparticles for exploring blood-brain barrier permeability: preparation, biodistribution studies, and improved brain uptake via neuropeptide conjugation.Characterization of the wheat germ agglutinin binding to self-assembled monolayers of neoglycoconjugates by AFM and SPR.Diversity oriented synthesis of hispanane-like terpene derivatives from (R)-(+)-sclareolide.Lectin-gated and glycan functionalized mesoporous silica nanocontainers for targeting cancer cells overexpressing Lewis X antigen.Real-time dynamic SERS detection of galectin using glycan-decorated gold nanoparticles.Gold glyconanoparticles coupled to listeriolysin O 91-99 peptide serve as adjuvant therapy against melanoma.Loading dendritic cells with gold nanoparticles (GNPs) bearing HIV-peptides and mannosides enhance HIV-specific T cell responses.Cellular Uptake of Nanoparticles versus Small Molecules: A Matter of SizeCellular Uptake of Gold Nanoparticles Triggered by Host–Guest InteractionsPhotoinduced Conformational Switch of Enantiopure Azobenzenes Controlled by a SulfoxideEnantiopure Sulfinyl Azobenzenes as Chiroptical SwitchesSynthesis of alpha-onoceradiene-like terpene dimers by intermolecular metathesis processesNanostructured disposable impedimetric sensors as tools for specific biomolecular interactions: sensitive recognition of concanavalin AH-Bonding-mediated binding and charge reorganization of proteins on gold nanoparticles
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Q34408152-FA0BDB99-CB0F-4DF7-9C75-3731FBE67D08Q35743528-6A04A661-42B0-45A0-9EF8-9DF91734D499Q35848431-3B7C3686-0EF2-448F-802F-A8B23858632BQ37577596-7C0B5C00-700C-4916-B5A3-88413FF0784AQ37775971-885C0CBD-126E-4F5C-8639-E88BA7F94164Q37957320-73E4683A-A31C-4DAB-BBAF-B0947C18D90DQ38071545-810DAA79-ACE2-431D-B484-64B9A2F2DDBBQ38815957-9FEB1355-15DF-4FFA-B027-741554082F18Q38906889-1E296BAD-9C4C-4221-B9A8-4A4789A58F2EQ38922580-CAE00EF1-89B7-4CEC-AF7E-A731F7174A6AQ40048669-D89895BD-3515-4269-883C-2A5C61CB0A43Q46083926-BF9FB695-1EBE-4CE4-886E-7B56A8BBB7A4Q46110585-6ED459DE-7F2B-4108-B82E-695F289E8FD7Q46424241-561C56FB-A40F-4AD1-BFD2-5E7F79EC38C0Q47324818-98158988-BE52-4B94-B243-1433BE891BE0Q47843325-56B0E793-9370-4CCE-A98F-66DAF06F2E8CQ53159624-FEAB10EF-8C37-4EF1-9C87-87EB147CCF68Q53831012-F7F03820-7335-4843-BEEB-D995D07AA9FAQ60205524-B17B8D0F-BA78-4B43-A3A9-9A8C5E605E5EQ60205562-DDF40981-A670-4C45-86EE-A4872B67DD84Q63253735-850CDF3B-B423-4EF5-952B-3911EEB2DC54Q63253736-70283436-3B8C-413E-8322-5FE8CE443B97Q82513856-356B5944-3742-4ED7-ABD1-58A207482BB9Q83644264-8CF8604D-2196-4133-888E-08DF2564C16CQ89748894-9F0E6A02-685A-4721-8DC9-7D547A1B6B5D
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description
researcher ORCID ID = 0000-0002-4101-317X
@en
name
Isabel García
@ast
Isabel García
@en
Isabel García
@es
Isabel García
@nl
type
label
Isabel García
@ast
Isabel García
@en
Isabel García
@es
Isabel García
@nl
prefLabel
Isabel García
@ast
Isabel García
@en
Isabel García
@es
Isabel García
@nl
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P21
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0000-0002-4101-317X