Complex functional interaction between integrin receptors and ion channels.
about
K+ Channel Inhibition Differentially Regulates Migration of Intestinal Epithelial Cells in Inflamed vs. Non-Inflamed Conditions in a PI3K/Akt-Mediated MannerThe dendritic cell response to classic, emerging, and homeostatic danger signals. Implications for autoimmunityMechanical regulation of calcium signaling of HL-60 on P-selectin under flowMechanosensory responses of osteocytes to physiological forces occur along processes and not cell body and require αVβ3 integrinBioelectric controls of cell proliferation: ion channels, membrane voltage and the cell cycle.Influence of the extracellular matrix and integrins on volume-sensitive osmolyte anion channels in C2C12 myoblasts.Coordinating heart morphogenesis: A novel role for hyperpolarization-activated cyclic nucleotide-gated (HCN) channels during cardiogenesis in Xenopus laevisModulation of the inwardly rectifying potassium channel Kir4.1 by the pro-invasive miR-5096 in glioblastoma cellsKcnj10 is a major type of K+ channel in mouse corneal epithelial cells and plays a role in initiating EGFR signaling.hERG1 channels drive tumour malignancy and may serve as prognostic factor in pancreatic ductal adenocarcinoma.Current understanding of usher syndrome type II.Selective Loss of Presynaptic Potassium Channel Clusters at the Cerebellar Basket Cell Terminal Pinceau in Adam11 Mutants Reveals Their Role in Ephaptic Control of Purkinje Cell Firing.Complementary roles of KCa3.1 channels and β1-integrin during alveolar epithelial repairA model for the role of integrins in flow induced mechanotransduction in osteocytes.Aquaporin 2 promotes cell migration and epithelial morphogenesis.Loss of β1-integrin from urothelium results in overactive bladder and incontinence in mice: a mechanosensory rather than structural phenotype.Exploring mechanisms involved in renal tubular sensing of mechanical stretch following ureteric obstruction.Potassium channels keep mobile cells on the go.Bioelectric mechanisms in regeneration: Unique aspects and future perspectives.Evidence of K+ channel function in epithelial cell migration, proliferation, and repair.Synchrotron X-ray fluorescence studies of a bromine-labelled cyclic RGD peptide interacting with individual tumor cells.Ion channels and transporters in cancer. 1. Ion channels and cell proliferation in cancer.The plasma membrane potential and the organization of the actin cytoskeleton of epithelial cells.Roles of ion transport in control of cell motility.Role of ion transport in control of apoptotic cell death.Interaction of tumour cells with their microenvironment: ion channels and cell adhesion molecules. A focus on pancreatic cancer.Ion channels in cancer: future perspectives and clinical potential.Regulation of BMP2-induced intracellular calcium increases in osteoblasts.The two-pore domain K2 P channel TASK2 drives human NK-cell proliferation and cytolytic function.New Trends in Cancer Therapy: Targeting Ion Channels and Transporters.hERG1 channels modulate integrin signaling to trigger angiogenesis and tumor progression in colorectal cancer.Depolarization alters phenotype, maintains plasticity of predifferentiated mesenchymal stem cells.Inhibition of HERG1 K+ channel protein expression decreases cell proliferation of human small cell lung cancer cells.Label-free imaging and temporal signature in phenotypic cellular assays: a new approach to high-content screening.Identification of a posttranslational mechanism for the regulation of hERG1 K+ channel expression and hERG1 current density in tumor cells.Type-1 cannabinoid receptors colocalize with caveolin-1 in neuronal cells.Responses of rat and mouse primary microglia to pro- and anti-inflammatory stimuli: molecular profiles, K+ channels and migration.Assay to mechanically tune and optically probe fibrillar fibronectin conformations from fully relaxed to breakage.K(+) channels and cell cycle progression in tumor cells.The Flatworm Macrostomum lignano Is a Powerful Model Organism for Ion Channel and Stem Cell Research.
P2860
Q27324841-9FBB2009-8A61-44FF-9D31-F6EE1B049F52Q28384138-3E4E5A9A-B329-4B06-B6C7-12FAD9C363AAQ28818370-B2D8E493-FF0A-434A-A26C-104B0F8D5BCBQ30561021-FB201EB3-4B0A-4733-909D-13ED73E576E1Q33822451-61AF1995-4773-4901-B52D-C51AA39BE2C3Q33840465-EBFAD854-577B-40C4-9A12-BCFA4984C724Q33883086-9FBCA3BF-F46B-4744-AEB1-CE452CDB4CC0Q33914091-890EEEB3-70D7-46A4-9012-0DA7B395020AQ34354013-18C9081D-D91E-4426-987B-9E82FDD9C252Q35198312-1D0BF6CA-5CCE-4402-8CC8-25E0C52FDEA6Q35830124-E8F2E375-5A70-4156-8941-6460265A7E4AQ35941447-302E948E-83C6-4038-A631-018E6E78EBFBQ36022725-98E109D0-1C85-4C8E-ABAA-A9A3075CCF4EQ36023747-78604D88-E93E-45F1-9A4E-EF10BD005D9EQ36200930-FC719DC3-1EEC-4ADC-A16B-7555969A3562Q36788751-D3B2D308-EBB1-42E0-B1C5-8E3F8BB09E0CQ37133680-1656DD80-C962-48F3-94A8-2866A6CE579FQ37242240-E5F65492-5AFF-499F-B9B2-FC9F0DFA2B06Q37465528-655677EA-7FAA-4E35-9D17-7426834D7D41Q37575263-EE7A7DB6-3D10-41BA-89C5-A8BDCA35C288Q37619340-2590B7E1-529C-47B3-9155-9AA049CD3B2BQ37856596-92BA0DC2-887B-4B0A-BB41-C6C892706EE8Q37982369-DA54D285-E062-4E37-9797-9C00779A9018Q38110508-F128B34E-ABA7-46C4-BDD0-7C8A1A2B21F3Q38110755-E2922934-71EB-4CA8-9AE3-9C2AFD4FF099Q38184985-988AC8CB-6D13-4B85-B3A3-B0EC703BA4D3Q38184990-A470394A-F579-41C1-A921-AA8079E6D731Q38793147-0DE14564-9716-4CD8-9E01-5969B3EB7898Q38857015-E2DBF8F6-2827-49C9-86F3-AE8D29B60B72Q38974256-A28EC3BF-5EC3-4F23-B224-DC46880E3609Q39056231-3CEAA0B2-DC50-4DB4-B10E-7138C81A60F0Q39407102-05F79CD6-5F0D-442A-BABB-C083A3C25809Q39444757-64DAA6D6-DCBE-4F1D-AFF6-4987528DBB62Q39842895-D74E98BC-38CF-4500-B91F-6218E0FCFCC4Q39971749-BF411E35-7D1D-414A-9F58-5A03602F6949Q40090497-1570F7D3-14AD-421D-9B23-9F31C6D40D5DQ41491255-9A49EC61-5A4E-4D73-9D24-3B9377A81E66Q41686457-CE98ACA1-738A-48E5-AF09-7CA66314C178Q41849048-7AC256AB-E597-4F92-9DBA-B9B71BB2FA5DQ41916683-4B41457C-1925-47B5-8177-749D4BC3FBE0
P2860
Complex functional interaction between integrin receptors and ion channels.
description
2006 nî lūn-bûn
@nan
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
2006年论文
@zh
2006年论文
@zh-cn
name
Complex functional interaction between integrin receptors and ion channels.
@ast
Complex functional interaction between integrin receptors and ion channels.
@en
type
label
Complex functional interaction between integrin receptors and ion channels.
@ast
Complex functional interaction between integrin receptors and ion channels.
@en
prefLabel
Complex functional interaction between integrin receptors and ion channels.
@ast
Complex functional interaction between integrin receptors and ion channels.
@en
P1476
Complex functional interaction between integrin receptors and ion channels.
@en
P2093
Andrea Becchetti
Annarosa Arcangeli
P304
P356
10.1016/J.TCB.2006.10.003
P577
2006-10-24T00:00:00Z