Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
about
The HOPS proteins hVps41 and hVps39 are required for homotypic and heterotypic late endosome fusionDynamics of the actin cytoskeleton mediates receptor cross talk: An emerging concept in tuning receptor signalingA family of tetraspans organizes cargo for sorting into multivesicular bodiesHydrophobic fluorescent probes introduce artifacts into single molecule tracking experiments due to non-specific bindingCD151 restricts the α6 integrin diffusion mode.BLOC-1 and BLOC-3 regulate VAMP7 cycling to and from melanosomes via distinct tubular transport carriersViruses and tetraspanins: lessons from single molecule approaches.Dynamic recruitment of microRNAs to their mRNA targets in the regenerating liverThe tetraspanin CD82 is specifically recruited to fungal and bacterial phagosomes prior to acidificationRole of tetanus neurotoxin insensitive vesicle-associated membrane protein in membrane domains transport and homeostasisThe SNARE VAMP7 Regulates Exocytic Trafficking of Interleukin-12 in Dendritic CellsMetastasis suppressor tetraspanin CD82/KAI1 regulates ubiquitylation of epidermal growth factor receptorThe tetraspanin CD151 in papillomavirus infection.Tetraspanins Function as Regulators of Cellular Signaling.Pathways for cytokine secretion.Quantum dots in cell biologyVesicular traffic in cell navigation.Tetraspanin CD82: a suppressor of solid tumors and a modulator of membrane heterogeneity.Ligand-functionalization of BPEI-coated YVO4:Bi3+,Eu3+ nanophosphors for tumor-cell-targeted imaging applications.Human endometrial stromal cell-trophoblast interactions: mutual stimulation of chemotactic migration and promigratory roles of cell surface molecules CD82 and CEACAM1.Mtss1 regulates epidermal growth factor signaling in head and neck squamous carcinoma cells.Tetraspan cargo adaptors usher GPI-anchored proteins into multivesicular bodies.Increased activity of the vesicular soluble N-ethylmaleimide-sensitive factor attachment protein receptor TI-VAMP/VAMP7 by tyrosine phosphorylation in the Longin domain.Integrative meta-modeling identifies endocytic vesicles, late endosome and the nucleus as the cellular compartments primarily directing RTK signaling.The SNARE Sec22b has a non-fusogenic function in plasma membrane expansion.Tetraspanin Tspan9 regulates platelet collagen receptor GPVI lateral diffusion and activation.Measurement of Epidermal Growth Factor Receptor-Derived Signals Within Plasma Membrane Clathrin Structures.Differential tumor biological role of the tumor suppressor KAI1 and its splice variant in human breast cancer cells.VAMP7 controls T cell activation by regulating the recruitment and phosphorylation of vesicular Lat at TCR-activation sites.Cathepsin D deficiency delays central nervous system myelination by inhibiting proteolipid protein trafficking from late endosome/lysosome to plasma membrane.
P2860
Q24304143-D81C459D-81A5-4571-9F0A-FA363A2F77B0Q26772875-A032CB2F-1481-4CA5-B290-8AE67951DFAFQ27930496-59B61BB4-BDBE-45B4-979F-DE2319843277Q28533459-937378FF-DCA5-4A1C-8ED0-5F7F25A49608Q30513779-69954259-DA27-4E96-90C3-AD8044B8CB0DQ30793347-2A251FF6-28F7-4268-BEE7-72409CAE99EAQ33677540-56A45B84-6D94-4DF6-9E06-8290D98911B6Q34676898-2465F0AA-6BE9-4E66-8354-71135D015A45Q34739605-3E4E961E-096A-4387-9A8E-870A35F7E9BAQ35848631-DF92CFA2-F7B1-455D-BF9C-363CB17C2669Q36724456-B42A9E5D-02C6-46CF-A8B3-2BC4D3FD5DDBQ37151134-AE09FDE6-5C48-448B-9AF6-E4313C5B88C5Q37611844-EECE34F4-2A6F-42F9-BAFF-074D7618854CQ37739091-63C418FE-22F8-4C7D-9435-C74DDE0BA392Q37779176-61CF33C1-7C60-4A40-A00C-62E515129517Q37850214-618291C0-C1A6-481A-AA4C-63504B5A18AFQ37873570-FC13289F-F882-4A2B-843A-C16B267C9D63Q38579796-B19CECFD-CEC2-4F62-B90D-CC1F9BD86906Q39119050-9664E547-206F-4E06-8328-CCC1BE7D77C9Q39204927-6BB4C294-9E85-4C53-86BE-6BF88D6F131AQ39472147-4D17A678-F510-4A1C-B3B5-E23CAC508CF4Q39987198-49D8C4F7-7F1A-45D4-9C77-FE48296B9959Q40132138-D66C2DB6-574B-4C2F-9E90-2B2D0C7EACAEQ40463360-2789995C-BE67-429C-B37B-2088239AC6D6Q41791643-D3299303-6726-4163-A5A4-B446676DCBE0Q47103597-F51290B4-206A-4F36-813B-E6A036582EA4Q47974736-674A9D15-9F4B-44D2-9086-6378014EBF63Q49787471-A6C63350-6B46-476F-9B80-379FBAA7C4C6Q51000427-DB238A8F-223A-4AAF-8E65-6D6B952315E8Q51733478-D8C094AF-19C8-4CD9-A3EC-14C6E5C51758
P2860
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
description
article
@en
im Februar 2010 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2010
@uk
name
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@en
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@nl
type
label
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@en
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@nl
prefLabel
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@en
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@nl
P2093
P356
P1476
Role of TI-VAMP and CD82 in EGFR cell-surface dynamics and signaling
@en
P2093
Franck Perez
Marie-Claude Gendron
Mathilde Chaineau
Maxime Dahan
Nicole Boggetto
P304
P356
10.1242/JCS.062497
P407
P577
2010-02-09T00:00:00Z