Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
about
Clarin-1, encoded by the Usher Syndrome III causative gene, forms a membranous microdomain: possible role of clarin-1 in organizing the actin cytoskeletonCurrent status of vaccines for schistosomiasisPancreatic cancer stem cell markers and exosomes - the incentive pushTetraspanins as therapeutic targets in hematological malignancy: a concise reviewIgSF8: a developmentally and functionally regulated cell adhesion molecule in olfactory sensory neuron axons and synapsesCharacterization of hydrophobic peptides in the presence of detergent by photoionization mass spectrometryHigh-level expression, single-step immunoaffinity purification and characterization of human tetraspanin membrane protein CD81.Substrate-attached materials are enriched with tetraspanins and are analogous to the structures associated with rear-end retraction in migrating cells.TETRASPANINs in Plants.Laminin-binding integrins and their tetraspanin partners as potential antimetastatic targets.The tetraspanins CD9 and CD81 regulate CD9P1-induced effects on cell migration.Proteomics analysis of A33 immunoaffinity-purified exosomes released from the human colon tumor cell line LIM1215 reveals a tissue-specific protein signature.Proteolysis-induced N-terminal ectodomain shedding of the integral membrane glycoprotein CUB domain-containing protein 1 (CDCP1) is accompanied by tyrosine phosphorylation of its C-terminal domain and recruitment of Src and PKCdelta.KAI1 suppresses HIF-1α and VEGF expression by blocking CDCP1-enhanced Src activation in prostate cancerSeparation of biological proteins by liquid chromatography.Lateral organization of membrane proteins: tetraspanins spin their web.CUB domain containing protein 1 (CDCP1) modulates adhesion and motility in colon cancer cells.Gag induces the coalescence of clustered lipid rafts and tetraspanin-enriched microdomains at HIV-1 assembly sites on the plasma membrane.Functional implications of tetraspanin proteins in cancer biology.The role of membrane microdomains in transmembrane signaling through the epithelial glycoprotein Gp140/CDCP1.Quantitative proteomics of extracellular vesicles derived from human primary and metastatic colorectal cancer cells.The transmembrane src substrate Trask is an epithelial protein that signals during anchorage deprivation.The application of proteomics technology to thrombosis research: the identification of potential therapeutic targets in cardiovascular disease.Immunoglobulin superfamily member IgSF8 (EWI-2) and CD9 in fertilisation: evidence of distinct functions for CD9 and a CD9-associated protein in mammalian sperm-egg interactionProteomic methodologies and their application in colorectal cancer research.Cell surface markers in colorectal cancer prognosis.Roles of CUB domain-containing protein 1 signaling in cancer invasion and metastasis.Host-cell factors involved in papillomavirus entry.Size-exclusion chromatography as a stand-alone methodology identifies novel markers in mass spectrometry analyses of plasma-derived vesicles from healthy individualsTetraspanin CD63 acts as a pro-metastatic factor via β-catenin stabilization.Infrared spectral signatures of CDCP1-induced effects in colon carcinoma cells.Detection of choline transporter-like 1 protein CTL1 in neuroblastoma x glioma cells and in the CNS, and its role in choline uptake.The tetraspanin CD9 facilitates MERS-coronavirus entry by scaffolding host cell receptors and proteases.Evolving '-omics' technologies in the drug development process.Coronavirus and influenza virus proteolytic priming takes place in tetraspanin-enriched membrane microdomainsStratum basale keratinocyte expression of the cell-surface glycoprotein CDCP1 during epidermogenesis and its role in keratinocyte migration.Advances in native high-performance liquid chromatography and intact mass spectrometry for the characterization of biopharmaceutical products.Stabilization of the CD81 Large Extracellular Loop with Disulfide Bonds Improves Its Amenability for Peptide Grafting
P2860
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P2860
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
description
2006 nî lūn-bûn
@nan
2006 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մարտին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@ast
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@en
type
label
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@ast
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@en
prefLabel
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@ast
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@en
P2093
P2860
P50
P356
P1433
P1476
Proteomic analysis of the tetraspanin web using LC-ESI-MS/MS and MALDI-FTICR-MS.
@en
P2093
François Le Naour
Jean-Pierre Le Caer
Magali André
Wassim El Nemer
P2860
P304
P356
10.1002/PMIC.200500180
P577
2006-03-01T00:00:00Z