Epidermal growth factor receptors are localized to lipid rafts that contain a balance of inner and outer leaflet lipids: a shotgun lipidomics study.
about
Long-distance delivery of bacterial virulence factors by Pseudomonas aeruginosa outer membrane vesiclesThe challenge of lipid rafts7-Dehydrocholesterol enhances ultraviolet A-induced oxidative stress in keratinocytes: roles of NADPH oxidase, mitochondria, and lipid raftsNutritional lipidomics: molecular metabolism, analytics, and diagnosticsMathematical modeling and validation of the ergosterol pathway in Saccharomyces cerevisiaePhospholipase C and D regulation of Src, calcium release and membrane fusion during Xenopus laevis development.A novel biotinylated lipid raft reporter for electron microscopic imaging of plasma membrane microdomains.Gradients of phosphatidylserine contribute to plasma membrane charge localization and cell polarity in fission yeast.Role of amphipathic helix of a herpesviral protein in membrane deformation and T cell receptor downregulation.A raft-associated species of phosphatidylethanolamine interacts with cholesterol comparably to sphingomyelin. A Langmuir-Blodgett monolayer study.Green Tea Catechins for Prostate Cancer Prevention: Present Achievements and Future Challenges.Lipidomics reveals that adiposomes store ether lipids and mediate phospholipid traffic.c-Cbl-mediated selective virus-receptor translocations into lipid rafts regulate productive Kaposi's sarcoma-associated herpesvirus infection in endothelial cells.Alteration of EGFR spatiotemporal dynamics suppresses signal transduction.Hyaluronan fragments improve wound healing on in vitro cutaneous model through P2X7 purinoreceptor basal activation: role of molecular weightSingle molecule fluorescence detection and tracking in mammalian cells: the state-of-the-art and future perspectives.A glycosphingolipid binding domain controls trafficking and activity of the mammalian notch ligand delta-like 1Co-segregation of AMPA receptors with G(M1) ganglioside in synaptosomal membrane subfractionsHigh-resolution mapping reveals topologically distinct cellular pools of phosphatidylserine.H-Ras mediates the inhibitory effect of epidermal growth factor on the epithelial Na+ channelSialidase NEU3 dynamically associates to different membrane domains specifically modifying their ganglioside pattern and triggering Akt phosphorylation.Spatio-temporal signaling in mast cells.Flotillin-1/reggie-2 protein plays dual role in activation of receptor-tyrosine kinase/mitogen-activated protein kinase signaling.Analysis of lipid-composition changes in plasma membrane microdomainsNascent high density lipoproteins formed by ABCA1 resemble lipid rafts and are structurally organized by three apoA-I monomersUltrastructure and lipid composition of detergent-resistant membranes derived from mammalian sperm and two types of epithelial cells.Transit of hormonal and EGF receptor-dependent signals through cholesterol-rich membranesABCA7 Deficiency Accelerates Amyloid-β Generation and Alzheimer's Neuronal Pathology.(-)-Epigallocatechin gallate causes internalization of the epidermal growth factor receptor in human colon cancer cellsCharacterization of Human and Murine T-Cell Immunoglobulin Mucin Domain 4 (TIM-4) IgV Domain Residues Critical for Ebola Virus Entry.n-3 polyunsaturated fatty acids suppress the localization and activation of signaling proteins at the immunological synapse in murine CD4+ T cells by affecting lipid raft formationMembranes: a meeting point for lipids, proteins and therapiesWhy targeting HDL should work as a therapeutic tool, but has not.Tuning voltage-gated channel activity and cellular excitability with a sphingomyelinase.Biochemical characterization of membrane fractions in murine sperm: identification of three distinct sub-types of membrane rafts.Adenovirus RID-alpha activates an autonomous cholesterol regulatory mechanism that rescues defects linked to Niemann-Pick disease type C.GRIN1 regulates micro-opioid receptor activities by tethering the receptor and G protein in the lipid raftInhibition of SREBP increases gefitinib sensitivity in non-small cell lung cancer cells.Fine tuning of cell functions through remodeling of glycosphingolipids by plasma membrane-associated glycohydrolases.N-myristoylated proteins, key components in intracellular signal transduction systems enabling rapid and flexible cell responses.
P2860
Q21559420-D9F440C6-6363-4D23-9240-AC26F4FED2F2Q24652892-DAACD3D9-CD37-4A28-A66E-8E8796DACB84Q24679777-5F564451-4102-4836-90C2-2ED7242ACDD2Q28390150-2EDFCD25-6E39-4DD0-BFFB-7A47ADA2D075Q28478408-21CC1771-099B-4E07-BD68-51FE8576E2C5Q30009210-4F16F107-CEDF-4362-937A-EB5864643183Q30524751-580E96C6-7A8E-402F-B601-238DD6207BA2Q30834329-35DE389B-6C4B-43BA-B875-A51FA17DD949Q33386000-14F85C9C-9518-4B02-9E04-100C29F58DE7Q33423858-0C0F4253-A5F9-4972-AC5F-E4679F0AB9A1Q33845027-C94530E4-D2E7-4F21-91BC-15C682C7E033Q34001841-1EEB243C-4833-4058-A277-2114C3B784CFQ34027122-D210EDAE-E3B1-4FD0-9B92-30FC2705E9A8Q34326437-22F9046B-1BE6-4183-BC9D-42AA9A96E5A3Q34485097-53504B10-9B5D-4DF3-B448-054C5B1EF336Q34497895-D6395766-9B0B-4DE9-8ECE-0A91D7BAFB16Q34999166-B39E6DA7-CFD8-4FE1-B486-26FA80FD72A3Q35056890-B12A7BC3-6F68-42D4-BC3C-DF605CA064A2Q35130156-830A68D2-BA59-43BB-90DA-2E47DABC5449Q35182530-20932C63-420C-4248-93AE-DCADB53973FDQ35187335-2F5F57D9-31BA-4A52-8394-002379F0A5A3Q35774834-009EDDC9-BEA0-4E6A-AF61-06B75412508BQ35801918-B01D7E95-9222-4395-B497-9287F721809BQ35886318-5C741A22-5FFA-4B78-A4B4-A22068DD38B8Q36145226-57AB5C99-76E3-4FD2-8988-EC09510EE025Q36426995-D43EC007-1F42-4C63-905A-60E8481D584AQ36686183-2E3BF59B-C60B-4C3C-8404-8BB805FDA75AQ36741016-8C7AFA0B-9DBA-4AFF-8259-8A38F0FCA6E2Q36916857-5CB64861-A2C7-4708-BE8E-D2522931E987Q37002542-E5492BB5-4CFB-4684-B44B-1D807B587716Q37003771-0659A3D9-53D5-4D6A-9ADF-515CF6668B0EQ37081783-0F00EECD-B060-4718-9E44-3FD346F0C98AQ37170464-9141C85D-957B-4D2C-919D-63740AC1859CQ37209209-0075A7E1-8954-4D0A-BAB2-0FC46C2548FFQ37251207-98F6F2BA-B533-4687-95C0-8CF775DBA34EQ37425577-947A00DA-135B-46E1-9AF0-6C5B4C18DC16Q37479415-C11A5DD5-37F8-48EA-B6E6-66428419B01BQ37588470-7388D74B-4516-4EF1-B71D-2CD03BDF90F4Q37632845-2D648194-5A1C-4336-9FF9-4DAC04DE8694Q37751705-FE75A131-F338-4AEE-AB21-8F8CA6C68289
P2860
Epidermal growth factor receptors are localized to lipid rafts that contain a balance of inner and outer leaflet lipids: a shotgun lipidomics study.
description
2005 nî lūn-bûn
@nan
2005 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@ast
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@en
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@nl
type
label
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@ast
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@en
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@nl
prefLabel
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@ast
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@en
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@nl
P2093
P2860
P356
P1476
Epidermal growth factor recept ...... s: a shotgun lipidomics study.
@en
P2093
Linda J Pike
Richard W Gross
Xianlin Han
P2860
P304
26796-26804
P356
10.1074/JBC.M503805200
P407
P577
2005-05-24T00:00:00Z