Interplay between rolling and firm adhesion elucidated with a cell-free system engineered with two distinct receptor-ligand pairs.
about
Drug carrier interaction with blood: a critical aspect for high-efficient vascular-targeted drug delivery systemsVascular targeting of nanocarriers: perplexing aspects of the seemingly straightforward paradigmProbing dynamic cell-substrate interactions using photochemically generated surface-immobilized gradients: application to selectin-mediated leukocyte rollingDual targeting improves microbubble contrast agent adhesion to VCAM-1 and P-selectin under flow.Bioactive hydrogel substrates: probing leukocyte receptor-ligand interactions in parallel plate flow chamber studiesDual-targeted contrast agent for US assessment of tumor angiogenesis in vivoAdhesive dynamicsShear-regulated uptake of nanoparticles by endothelial cells and development of endothelial-targeting nanoparticles.Visualization of activated platelets by targeted magnetic resonance imaging utilizing conformation-specific antibodies against glycoprotein IIb/IIIa.Combination-targeting to multiple endothelial cell adhesion molecules modulates binding, endocytosis, and in vivo biodistribution of drug nanocarriers and their therapeutic cargoes.Towards an artificial cell.I-domain of lymphocyte function-associated antigen-1 mediates rolling of polystyrene particles on ICAM-1 under flow.A semianalytical model to study the effect of cortical tension on cell rolling.Optimizing endothelial targeting by modulating the antibody density and particle concentration of anti-ICAM coated carriersMultivalent binding of nanocarrier to endothelial cells under shear flowInterplay between shear stress and adhesion on neutrophil locomotion.Engineered cell homingUsing engineered single-chain antibodies to correlate molecular binding properties and nanoparticle adhesion dynamics.Glycoengineering of HCELL, the human bone marrow homing receptor: sweetly programming cell migrationEvolution of Multivalent Nanoparticle Adhesion via Specific Molecular Interactions.Investigating dynamical deformations of tumor cells in circulation: predictions from a theoretical modelCadherin and integrin regulation of epithelial cell migration.Biomimetic delivery with micro- and nanoparticlesA platelet-mimetic paradigm for metastasis-targeted nanomedicine platformsLeuko-polymersomesAn approach to molecular imaging of atherosclerosis, thrombosis, and vascular inflammation using microparticles of iron oxide.Dynamic factors controlling targeting nanocarriers to vascular endothelium.Tunable leuko-polymersomes that adhere specifically to inflammatory markersTargeted endothelial nanomedicine for common acute pathological conditions.In vivo performance of polymer nanocarriers dually-targeted to epitopes of the same or different receptors.Optimization of ultrasound contrast agents with computational models to improve selection of ligands and binding strength.Molecular imaging with optical coherence tomography using ligand-conjugated microparticles that detect activated endothelial cells: rational design through target quantificationEngineered mesenchymal stem cells with self-assembled vesicles for systemic cell targeting.Effects of Membrane Rheology on Leuko-polymersome Adhesion to Inflammatory Ligands.Flow dynamics, binding and detachment of spherical carriers targeted to ICAM-1 on endothelial cells.Magnetic resonance imaging of endothelial adhesion molecules in mouse atherosclerosis using dual-targeted microparticles of iron oxide.Selectin-mediated adhesion in shear flow using micropatterned substrates: multiple-bond interactions govern the critical length for cell binding.P-Selectin and ICAM-1 synergy in mediating THP-1 monocyte adhesion in hemodynamic flow is length dependent.Evaluation of Receptor-Ligand Mechanisms of Dual-Targeted Particles to an Inflamed Endothelium.Comparison of Magnetic Microbubbles and Dual-modified Microbubbles Targeted to P-selectin for Imaging of Acute Endothelial Inflammation in the Abdominal Aorta.
P2860
Q26798467-276F8428-6D69-45BB-AA73-E579C9F033E3Q27026630-FB806BFD-1FCD-41F5-A510-65FEABE1A664Q28657372-C1243AB3-2654-4082-B462-26D6AE1BD47AQ30433916-E24C728D-6F22-44EB-ABCB-A9072C2AC636Q30445529-D2A1BEF6-F800-4BB4-8377-A559B258255FQ30484195-D82F8051-E9AE-40FF-B2EF-4120DACFCF47Q33622533-C24A6A7B-6170-463D-B3A4-CD58E742F94EQ33790279-0D633361-DCDA-41B7-A763-99BBC5698416Q34038326-48A658ED-5B16-4E86-BCDC-69801F797633Q34119423-7B581AA6-3122-468E-B7C5-B1DF001E9D96Q34290853-47E4B608-F31F-463E-B847-68A4C4C01340Q34351893-BDCB4106-6E37-40AF-AE99-8995A48B672DQ34398400-7B40F0CE-6797-448F-B3AE-5C470212356EQ34690444-D03DC706-1C96-4C29-8732-A60A4631287CQ35106692-5393C6C6-B98C-400E-B62B-01710E1E68F3Q35545470-F56D920C-7BB4-48DF-8A1D-0DA7D0825BB1Q35623682-89EB36CD-04D3-494C-B7AF-BE32812F7D98Q35671544-0CD4F26B-1D44-45B9-B064-0331C43C1775Q35850785-E71408FD-A748-4D1F-9C07-2573EBB2AE8EQ36178351-3A85A438-3470-43F0-B27E-57396C4D5D37Q36241042-F62960CB-E62E-4BC3-B032-078083231F9EQ36565684-B6D28E68-2789-4E36-9898-B314A3687792Q36768786-E862F451-F640-4B12-B6FA-CD4EDFFD5438Q36949458-6B7660BA-9022-45FD-9399-4BD67EC00C7AQ37271100-CEFEC097-6807-40F4-97F2-522128F9E493Q37626229-B74F76CB-A085-4E4A-A634-ED4FF61BB424Q37980236-1410DEB1-83AC-4808-8EBF-4304EE9F0C1BQ38341719-FFA65CD8-1886-4190-9DFB-60BD5A947661Q38598987-FFE650DF-352E-4AA8-B29C-733FE967215AQ39273796-971F6E8B-37F8-4DA8-A674-4BDA37DAFD6FQ39411412-B4CD981D-044A-46FE-BA28-4D577342E600Q39696858-15E0D505-28A1-4553-BBFA-B0F87634B627Q40734038-F1E1E5DA-8961-4B77-93A4-7E21DE975156Q41457070-D5648A88-F92F-42F4-A230-7936379351F7Q41824469-51C4C423-53F9-4DA7-B6FD-56FAD1619E00Q42402124-D90BFB7F-418E-4A4F-8C6B-60904C8A8924Q48560773-6A76B5BC-94DE-403C-82C9-7209D89DE183Q50860508-C8814769-97FB-4FCE-BD72-BF84200A0892Q51055092-8622ABBA-AFF5-49B1-8E78-E1302683F1EDQ51152653-4FD297E1-26A3-41E6-AC1E-88D9E90914E0
P2860
Interplay between rolling and firm adhesion elucidated with a cell-free system engineered with two distinct receptor-ligand pairs.
description
2003 nî lūn-bûn
@nan
2003 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Interplay between rolling and ...... istinct receptor-ligand pairs.
@ast
Interplay between rolling and ...... istinct receptor-ligand pairs.
@en
Interplay between rolling and ...... istinct receptor-ligand pairs.
@nl
type
label
Interplay between rolling and ...... istinct receptor-ligand pairs.
@ast
Interplay between rolling and ...... istinct receptor-ligand pairs.
@en
Interplay between rolling and ...... istinct receptor-ligand pairs.
@nl
prefLabel
Interplay between rolling and ...... istinct receptor-ligand pairs.
@ast
Interplay between rolling and ...... istinct receptor-ligand pairs.
@en
Interplay between rolling and ...... istinct receptor-ligand pairs.
@nl
P2093
P2860
P1433
P1476
Interplay between rolling and ...... istinct receptor-ligand pairs.
@en
P2093
A Omolola Eniola
Daniel A Hammer
P Jeanene Willcox
P2860
P304
P356
10.1016/S0006-3495(03)74695-5
P407
P577
2003-10-01T00:00:00Z