about
BKCa and hEag1 channels regulate cell proliferation and differentiation in human bone marrow-derived mesenchymal stem cellsModeling Electrophysiological Coupling and Fusion between Human Mesenchymal Stem Cells and CardiomyocytesRegulation of voltage-gated potassium channels attenuates resistance of side-population cells to gefitinib in the human lung cancer cell line NCI-H460Shining light on nanotechnology to help repair and regeneration.The inhibition of KCa3.1 channels activity reduces cell motility in glioblastoma derived cancer stem cells.Angiotensin II increased neuronal stem cell proliferation: role of AT2R.Erg channel is critical in controlling cell volume during cell cycle in embryonic stem cells.The role of transient receptor potential vanilloid type-2 ion channels in innate and adaptive immune responsesTLR3-/4-Priming Differentially Promotes Ca(2+) Signaling and Cytokine Expression and Ca(2+)-Dependently Augments Cytokine Release in hMSCs.A genome-wide association study of chemotherapy-induced alopecia in breast cancer patients.Cardiomyocyte culture - an update on the in vitro cardiovascular model and future challenges.In search of the pivot point of mechanotransduction: mechanosensing of stem cells.The force-from-lipid (FFL) principle of mechanosensitivity, at large and in elements.A Transcriptomic Survey of Ion Channel-Based Conotoxins in the Chinese Tubular Cone Snail (Conus betulinus).MicroRNA deep sequencing in two adult stem cell populations identifies miR-501 as a novel regulator of myosin heavy chain during muscle regeneration.A multicenter, randomized study of decitabine as epigenetic priming with induction chemotherapy in children with AML.Mesenchymal stem cell differentiation: Control by calcium-activated potassium channels.Bioelectric signaling in regeneration: Mechanisms of ionic controls of growth and form.Kv3.1 channels stimulate adult neural precursor cell proliferation and neuronal differentiation.Characterization of functional ion channels in human cardiac c-kit+ progenitor cells.Nanoscale Electrical Potential and Roughness of a Calcium Phosphate Surface Promotes the Osteogenic Phenotype of Stromal Cells.
P2860
Q24311599-AD55C333-9779-4044-8772-C73EB4EDF08FQ26779602-D0EAB038-3555-429B-B260-691844D85EBFQ32181933-161446FC-143C-485B-A078-159BC5228B70Q34404413-BFBC1F23-6AE9-442E-B1C2-EE48DFB84428Q34460616-564A3274-FADF-4E35-8675-EE2B60574B81Q34730534-FA42823A-EE8E-44CC-9E54-BC396EC6EF38Q34927241-2612204E-52EE-4E23-8909-877FDC228CD8Q36610147-1F6E81D4-A373-4179-99AC-BFE7C3107CA1Q36691003-20D8D273-B2E7-4475-8CF6-046C5AAFED40Q37690380-B8E1C685-2B67-4C77-ACED-1CDE0153BE37Q38167330-A01F3CB4-410F-4294-9A25-07DA41B13F96Q38179569-FDE4057B-E21E-4AE9-8C74-BB92F8DF9317Q38216887-2B01EFB0-9A83-48C4-A573-ED4FC659714DQ39084750-58DCF0E3-57A4-4BE9-95AE-9B9B5E9A4E5BQ41828703-0AC4CE08-2B71-44C6-B320-4FB3BC7D37BAQ42371209-1A2AB76C-61BC-4596-8165-45D9069C86E3Q46325883-62B7EF34-7AF6-4D86-A7C5-939C32D9FB72Q50124267-3FC0014E-6AF0-4655-95CA-ED6289F545D7Q50483041-C1CBC5AC-052C-4AC5-8A01-2ABF139E0697Q54363118-8D3808DE-9797-4C77-9A43-B3B9877481C2Q55465473-DEFEE15F-01E8-491B-B58D-0EC38ED0A5F7
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Functional ion channels in stem cells.
@en
Functional ion channels in stem cells.
@nl
type
label
Functional ion channels in stem cells.
@en
Functional ion channels in stem cells.
@nl
prefLabel
Functional ion channels in stem cells.
@en
Functional ion channels in stem cells.
@nl
P2860
P356
P1476
Functional ion channels in stem cells.
@en
P2093
Gui-Rong Li
Xiu-Ling Deng
P2860
P356
10.4252/WJSC.V3.I3.19
P577
2011-03-01T00:00:00Z