Spatially distinct binding of Cdc42 to PAK1 and N-WASP in breast carcinoma cells
about
Imaging tumour heterogeneity of the consequences of a PKCα-substrate interaction in breast cancer patientsMethods of Cell Propulsion through the Local Stroma in Breast CancerQuantification of HER family receptors in breast cancerβ1 integrins regulate fibroblast chemotaxis through control of N-WASP stability.Nervous wreck and Cdc42 cooperate to regulate endocytic actin assembly during synaptic growth.Activated ezrin promotes cell migration through recruitment of the GEF Dbl to lipid rafts and preferential downstream activation of Cdc42Regulation of cell death by recycling endosomes and golgi membrane dynamics via a pathway involving Src-family kinases, Cdc42 and Rab11a.Human endothelial cells internalize Candida parapsilosis via N-WASP-mediated endocytosisThe type III TGFβ receptor regulates filopodia formation via a Cdc42-mediated IRSp53-N-WASP interaction in epithelial cells.L-selectin shedding is activated specifically within transmigrating pseudopods of monocytes to regulate cell polarity in vitro.The potential of optical proteomic technologies to individualize prognosis and guide rational treatment for cancer patientsQuantifying intracellular protein binding thermodynamics during mechanotransduction based on FRET spectroscopy.Relative actin nucleation promotion efficiency by WASP and WAVE proteins in endothelial cells.A multi-functional imaging approach to high-content protein interaction screeningmTOR-independent translational control of the extrinsic cell death pathway by RalA.The ErbB4 CYT2 variant protects EGFR from ligand-induced degradation to enhance cancer cell motility.Time-domain microfluidic fluorescence lifetime flow cytometry for high-throughput Förster resonance energy transfer screening.Fluorescence lifetime endoscopy using TCSPC for the measurement of FRET in live cells.RhoA is down-regulated at cell-cell contacts via p190RhoGAP-B in response to tensional homeostasis.In Vitro and in Vivo Characterization of Molecular Interactions between Calmodulin, Ezrin/Radixin/Moesin, and L-selectin.Shining new light on 3D cell motility and the metastatic process.How Förster resonance energy transfer imaging improves the understanding of protein interaction networks in cancer biology.The challenges of integrating molecular imaging into the optimization of cancer therapy.Interplay of polarity proteins and GTPases in T-lymphocyte function.Quantification of integrin receptor agonism by fluorescence lifetime imaging.A secreted protein (Canopy 2, CNPY2) enhances angiogenesis and promotes smooth muscle cell migration and proliferation.α3β1 integrins regulate CD151 complex assembly and membrane dynamics in carcinoma cells within 3D environments.Rab11-FIP3 is a Rab11-binding protein that regulates breast cancer cell motility by modulating the actin cytoskeleton.Integrating receptor signal inputs that influence small Rho GTPase activation dynamics at the immunological synapseNonlinear optical imaging of cellular processes in breast cancer.The non-redundant role of N-WASP in podosome-mediated matrix degradation in macrophages.A Bayesian method for single molecule, fluorescence burst analysis.Multiple roles for RhoA during T cell transendothelial migrationGenome-wide analysis identifies a general requirement for polarity proteins in endocytic traffic.Deep sequencing of HIV-1 reverse transcripts reveals the multifaceted antiviral functions of APOBEC3G.Group I Paks support muscle regeneration and counteract cancer-associated muscle atrophy.Abi1 regulates the activity of N-WASP and WAVE in distinct actin-based processesSequential binding of ezrin and moesin to L-selectin regulates monocyte protrusive behaviour during transendothelial migrationMultiphoton time-domain fluorescence lifetime imaging microscopy: practical application to protein-protein interactions using global analysis
P2860
Q26858812-FB5E4336-BB0D-4883-BA29-2B1568694F3DQ26997536-C414841A-2D21-4CD1-AFDD-3A4FB53B5911Q27015506-97EE76CB-2833-4F26-AA39-27DBF96B33B8Q28590876-77667CCB-A528-49DD-8C78-BC5175EEFC94Q30157620-74279C12-A1E3-464D-BA14-709F179A7718Q30479901-1BAFBE86-13B0-4CEF-803F-75B58ABBEB2EQ30490191-00BFDF39-76D8-4B1E-A038-722669A48A2AQ30541724-2326E323-59A4-4B81-B68B-92E02E48A49BQ30582833-2171F10B-2E2E-4220-A5DC-86A54FF2FBC5Q30633203-0175C5DC-E194-4180-BF5A-FCDD53F56A0CQ33503737-E47B92CE-3C9A-4BBF-AAC8-D7DB4DC45EA7Q33889248-C0CC949C-5A25-427A-A150-663BAF1CB7DEQ34180559-FB8F627C-9A88-434B-9003-9174E5E924C7Q34233520-A6DF53E0-9CB4-44AA-A2C8-3E98CB4F16C5Q35131738-83D96DCD-EDD4-4426-B36C-A45D46B26BA9Q35228445-B58BDBB9-64FA-4A29-A5A2-5CFE60769CC5Q35530090-AF78445E-04BB-45DA-80FC-E0AC5DC17C87Q36129895-8B96F2FD-7DB4-428D-B6CC-572356A31888Q36887405-0E4EEDCD-30C1-4882-B06C-F30DDD8425CBQ37136831-B4652F61-B214-4511-8DC9-63A0822F67F8Q37612398-65D8D552-8720-4571-94EB-00E8DBA8FDA0Q37843988-429AE40B-86DE-4058-B7CC-D9C8D315449BQ37871875-8DF241CA-E64B-4100-AE27-3DC98FCAC5F8Q37998461-10D42040-7C09-425F-AAB7-275EF974FF08Q38294282-344CC2F3-38B1-4D63-A85E-6CAA05CAB30BQ38445894-08CCDACC-E488-4BCE-8CCC-9D85777B8875Q39276841-3B864291-C81C-4C04-B801-09B4747A223DQ39867336-1E01A9D0-13CA-4F4E-BA8C-4737EC24E841Q39869313-9FBCF909-8191-43FE-A461-D7D0FECFEAFDQ39921005-09ED958D-3CC2-43AC-B7C8-C4E45DF725AFQ41530444-523E3DFB-A801-45DA-9112-178332895A2DQ42158620-62FDB59D-C041-401B-9A1C-BC61DF0E5A5CQ42760716-2CC29A74-948C-4E37-B04E-D81A20E2527DQ47068800-F95C3AE2-76CF-426D-BBC1-F07C24802D29Q47380909-12EB7247-69B6-4EBA-B09C-46309116BA88Q54978691-8F5BFB2A-0FC4-41B3-995A-66096181B4F0Q57369592-6E5F05AE-E448-4909-B946-7C9090B1DC47Q58195107-833B94BF-D16A-492B-AF1E-52DE8ED704E8Q58313770-DA00FAD5-A1E6-442F-B8BC-72222D42EBAC
P2860
Spatially distinct binding of Cdc42 to PAK1 and N-WASP in breast carcinoma cells
description
2005 nî lūn-bûn
@nan
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
2005年论文
@zh
2005年论文
@zh-cn
name
Spatially distinct binding of Cdc42 to PAK1 and N-WASP in breast carcinoma cells
@en
type
label
Spatially distinct binding of Cdc42 to PAK1 and N-WASP in breast carcinoma cells
@en
prefLabel
Spatially distinct binding of Cdc42 to PAK1 and N-WASP in breast carcinoma cells
@en
P2093
P2860
P50
P1476
Spatially distinct binding of Cdc42 to PAK1 and N-WASP in breast carcinoma cells
@en
P2093
Daniel Zicha
James Monypenny
Laura M Machesky
Marion Peter
Melanie D Keppler
Rose Watson
Thomas H Millard
P2860
P304
P356
10.1128/MCB.25.5.1680-1695.2005
P407
P577
2005-03-01T00:00:00Z