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TNIK (Traf2 and Nck-interacting kinase (show TNIK ELISA Kits)) and MINK (Misshapen/NIKs-related kinase) MAP4K signalling kinases are integral components of both canonical and non-canonical pathways in Xenopus.
KCNE1/KCNQ1 (show KCNQ1 ELISA Kits) was expressed in Xenopus oocytes with and without beta-catenin (show CTNNB1 ELISA Kits). Confocal microscopy revealed that beta-catenin (show CTNNB1 ELISA Kits) enhanced the KCNE1/KCNQ1 (show KCNQ1 ELISA Kits) protein abundance in the cell membrane.
PIP(2) has a role in KCNE1 modulation of I(Ks) channels that may represent a common mechanism of auxiliary subunit modulation of many ion channels
characterize a new component of the early bioelectrical circuit: the potassium channel (show KCNAB2 ELISA Kits) KCNQ1 (show KCNQ1 ELISA Kits) and its accessory subunit KCNE1
phenylboronic acid (PBA) activates KCNQ1 (show KCNQ1 ELISA Kits)/KCNE1 complexes
Western blotting analysis combined with these pharmacological data suggest that long-term insulin (show INS ELISA Kits) treatment augments KCNQ1 (show KCNQ1 ELISA Kits)/KCNE1 currents by increasing KCNE1 protein expression.
KCNQ1/KCNE1 channel does not require phosphatidylinositol-4,5-bisphosphate (PIP2) or phosphatidylinositol-4-phosphate for anterograde trafficking, but is heavily reliant on PIP2 for channel function once at the plasma membrane.
The genetic variant rs426496 in AQP2 (show AQP2 ELISA Kits); rs591810 in AQP3 (show AQP3 ELISA Kits) and rs1805127, rs1805128, and rs17173510, in KCNE1 were found in patients with Meniere's disease
Meta-analysis suggests that the G38S polymorphism in the KCNE1 gene can significantly increase the risk of atrial fibrillation in both Chinese and white individuals.
Sphingomyelin synthase 1 (show SGMS1 ELISA Kits) positively regulates KCNQ1 (show KCNQ1 ELISA Kits)/KCNE1 channel density in a protein kinase D (show PRKD1 ELISA Kits)-dependent manner.
Receptor Species-dependent Desensitization Controls KCNQ1 (show KCNQ1 ELISA Kits)/KCNE1 K+ Channels as Downstream Effectors of Gq Protein-coupled Receptors.(
KCNE1 encodes a modulator of KCNQ1 (show KCNQ1 ELISA Kits) and KCNH2 (show KCNH2 ELISA Kits) channels. Long QT syndrome (LQTS) patients with KCNE1(G38S) had a rate-dependent repolarization abnormality similar to patients with LQT2 (show KCNH2 ELISA Kits) and, therefore, may have a potential risk to develop lethal arrhythmias.
A stoichiometry of 4:4 between the alpha KCNE1 and the beta KCNQ1 (show KCNQ1 ELISA Kits)-subunits has been established.
Analysis of QT-RR relationship could also evaluate the latent arrhythmogenicity of KCNE1(G38S).
The incidence of AF among the senior Uygur population in Xinjiang territory was correlated with the KCNE1 (G38S) polymorphism, which may be an independent risk factor for Uygur AF patients.
study demonstrated that in the left ventricle,the level of the transcriptional product of KCNE1 was significantly higher than those of KCNQ1 (show KCNQ1 ELISA Kits), KCNH2 (show KCNH2 ELISA Kits), and KCNE2 (show KCNE2 ELISA Kits)
miR-1 by anti-miR-1 inhibitor oligonucleotides alleviated the downregulation of KCNE1 and KCNB2 (show KCNB2 ELISA Kits), the shortening of AERP, and the increase in the IKs
The localization of KCNE1 in the RPE basal membrane, where KCNQ5 (show KCNQ5 ELISA Kits) was previously found to be present, suggests that this beta-subunit (show POLG ELISA Kits) may contribute to M-type K(+) channels in this membrane.
The electrophysiological effects of BACE1 (show BACE ELISA Kits) on KCNQ1 (show KCNQ1 ELISA Kits) reported here were independent of its enzymatic activity.
KCNE1 and KCNE3 (show Kcne3 ELISA Kits): The yin and yang of voltage-gated K(+) channel (show KCND3 ELISA Kits) regulation
KCNE1 and KCNE2 (show KCNE2 ELISA Kits), auxiliary subunits of voltage-gated potassium channels, undergo sequential cleavage mediated by either alpha-secretase and presenilin(PS)/gamma-secretase or BACE1 (show BACE ELISA Kits) and PS/gamma-secretase in cells.
In clearance studies the KCNE1 knockout mice had an increased fractional excretion of Na+, Cl-, HCO3(-) and water.
This study confirmed that KCNE1 channels are necessary for K+ secretion in developmental Saccule and Utricle in mice.
both the voltage-dependence and kinetics of gating were found to depend on the relative densities of KCNQ1 (show KCNQ1 ELISA Kits) and KCNE1, suggesting the heart rhythm may be regulated by the relative expression of the auxiliary subunit
Findings directly implicate triggered electrical activity and spatial and temporal re-entrant mechanisms in the arrhythmogenesis observed in KCNE1 (-/-) hearts.
intestinal Cl(-) secretion is independent from KCNE1 but requires KCNQ1 (show KCNQ1 ELISA Kits) and in mouse pancreatic acini KCNQ1 (show KCNQ1 ELISA Kits) probably co-assembled with KCNE1 leads to a voltage-dependent K(+) current that might be of importance for electrolyte and enzyme secretion.
the spatial expression of minK-lacZ (show GLB1 ELISA Kits) in the adult mouse heart has been shown, for the larger part, to be coincident with the conduction tissues
The transitory transfection of kcne1 restores both Cl- and K+ swelling-activated currents, confirming the implication of KCNE1 protein in the cell-volume regulation in PCT (show UROD ELISA Kits) cells in primary cultures.
The product of this gene belongs to the potassium channel KCNE family. Potassium ion channels are essential to many cellular functions and show a high degree of diversity, varying in their electrophysiologic and pharmacologic properties. This gene encodes a transmembrane protein known to associate with the product of the KVLQT1 gene to form the delayed rectifier potassium channel. Mutation in this gene are associated with both Jervell and Lange-Nielsen and Romano-Ward forms of long-QT syndrome. Alternatively spliced transcript variants encoding the same protein have been identified.
potassium voltage-gated channel, Isk-related family, member 1
, voltage-gated potassium channel subunit MinK
, potassium voltage-gated channel subfamily E member 1
, IKs producing slow voltage-gated potassium channel subunit beta Mink
, cardiac delayed rectifier potassium channel protein
, delayed rectifier potassium channel subunit IsK
, minimal potassium channel
, potassium voltage-gated channel, Isk-related subfamily, member 1
, voltage gated potassiun channel accessory subunit
, potassium (K+) channel protein, slowly activating (Isk)
, potassium voltage-gated channel Shaw-related subfamily member 1
, delayed rectifier potassium channel protein
, slow delayed rectifier K+ channel
, voltage gated potassium channel accessory subunit cardiac splice