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anti-Human Radixin Antibodies:
anti-Mouse (Murine) Radixin Antibodies:
anti-Rat (Rattus) Radixin Antibodies:
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Human Monoclonal Radixin Primary Antibody for IF, ELISA - ABIN562623
Zhao, Williams, Shin, Brügger, Gillespie: Large membrane domains in hair bundles specify spatially constricted radixin activation. in The Journal of neuroscience : the official journal of the Society for Neuroscience 2012
Show all 4 Pubmed References
Human Polyclonal Radixin Primary Antibody for ELISA, WB - ABIN251569
Ivetic, Florey, Deka, Haskard, Ager, Ridley: Mutagenesis of the ezrin-radixin-moesin binding domain of L-selectin tail affects shedding, microvillar positioning, and leukocyte tethering. in The Journal of biological chemistry 2004
Human Polyclonal Radixin Primary Antibody for ICC, IF - ABIN4349187
Ek, Andréasson, Hober, Kampf, Pontén, Uhlén, Merz, Borrebaeck: From gene expression analysis to tissue microarrays: a rational approach to identify therapeutic and diagnostic targets in lymphoid malignancies. in Molecular & cellular proteomics : MCP 2006
CPI-17 (show PPP1R14A Antibodies) drives Ras activity and tumorigenesis in melanomas in a two-fold way; inactivation of the tumor suppressor merlin (show NF2 Antibodies) and activation of the growth promoting ERM (show ETV5 Antibodies) family.
Radixin knockdown suppresses the metastasis of SGC (show SGCB Antibodies)-7901 cells in vitro by up-regulation of E-cadherin (show CDH1 Antibodies). The NF-kappaB (show NFKB1 Antibodies)/snail (show SNAI1 Antibodies) pathway contributes to the regulation of E-cadherin (show CDH1 Antibodies) in response to depletion of radixin.
Phospho-Ezrin/Radixin/Moesin (ERM (show MSN Antibodies)) inhibit cell adhesion, and therefore, dephosphorylation of ERM (show ETV5 Antibodies) proteins is essential for cell adhesion.Phospho-ERM (show ETV5 Antibodies) induce formation and/or maintenance of spherical cell shape.
These studies identify Akt2 (show AKT2 Antibodies) as a critical kinase that regulates radixin phosphorylation and leads to Mrp-2 (show ABCC2 Antibodies) translocation and function.
Intracellular sphingosine kinase 2 (show SPHK2 Antibodies)-derived sphingosine-1-phosphate mediates epidermal growth factor (show EGF Antibodies)-induced ezrin-radixin-moesin (show MSN Antibodies) phosphorylation and cancer cell invasion.
High Radixin expression is associated with glioblastoma.
Ezrin (show EZR Antibodies), radixin and moesin (show MSN Antibodies) are unlikely targets for autoantibodies in demyelinating neuropathies.
Data show that silencing ezrin-radixin-moesin (ERM (show MSN Antibodies)) protein expression ablates deleted in colorectal carcinoma (show DCC Antibodies) protein (DCC (show DCC Antibodies))-protein kinase A (PKA) interaction and specifically blocks netrin-induced PKA activity and phosphorylation.
These data suggest an association between RDX polymorphisms and the clinical features of RA patients, particularly the ESR (show ESR1 Antibodies)
Radixin was identified as a target gene of miR (show MLXIP Antibodies)-196a/-196b. Elevated miR (show MLXIP Antibodies)-196a/-196b expression in GC cells led to reduced radixin protein levels and vice versa.
LRBA (show LRBA Antibodies) deficiency is associated with a reduced abundance of radixin and Nherf2 (show SLC9A3R2 Antibodies), two adaptor proteins, which are important for the mechanical stability of the basal taper region of stereocilia.
Inactivation of SHIP2 (show INPPL1 Antibodies) leads to increased microvilli formation and solute reabsorption by the renal proximal tubule and was associated with hyperactivated ezrin/radixin/moesin (show MSN Antibodies) proteins and increased Rho-GTP (show AK3 Antibodies).
identification of radixin as a PRG-2 (show PTGR2 Antibodies) interaction partner and showing that radixin accumulation in growth cones and its LPA (show LPA Antibodies)-dependent phosphorylation depend on its binding to specific regions within the C-terminal region of PRG-2 (show PTGR2 Antibodies)
These results indicate that radixin plays an important role in regulating P-glycoprotein localization and P-glycoprotein functional activity at the intestinal membrane.
The specific location of radixin-positive cells in the peri (show POSTN Antibodies)-infarct region and in microglia suggests a role for radixin in microglial activation after stroke.
A Pak1-PP2A-ERM signaling axis mediates F-actin rearrangement and degranulation in mast cells.
the extracellular matrix molecule VN and its neuronal receptor TLCN (show ICAM5 Antibodies) play a pivotal role in the phosphorylation of ezrin/radixin/moesin (show MSN Antibodies) proteins and the formation of phagocytic cup-like structures on neuronal dendrites
Ezrin/radixin/moesin (show MSN Antibodies) are required for the purinergic P2X7 receptor (P2X7R (show P2RX7 Antibodies))-dependent processing of the amyloid precursor protein (show APP Antibodies).
The ERM (ezrin, radixin, moesin) proteins are novel scaffolds at the level of SOS activity control, which is relevant for both normal Ras function and dysfunction known to occur in several human cancers.
Ezrin-radixin-moesin (ERM (show MSN Antibodies)) proteins are induced in activated microglia/macrophages, whereas ERM (show ETV5 Antibodies) molecules are only marginally expressed in quiescent microglia in the normal brain.
Radixin is a cytoskeletal protein that may be important in linking actin to the plasma membrane. It is highly similar in sequence to both ezrin and moesin. The radixin gene has been localized by fluorescence in situ hybridization to 11q23. A truncated version representing a pseudogene (RDXP2) was assigned to Xp21.3. Another pseudogene that seemed to lack introns (RDXP1) was mapped to 11p by Southern and PCR analyses. Multiple alternatively spliced transcript variants encoding different isoforms have been found for this gene.
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