about
Mitochondria-Targeted Antioxidants: Future Perspectives in Kidney Ischemia Reperfusion InjuryOxidative Stress and Maxi Calcium-Activated Potassium (BK) ChannelsCell death and survival through the endoplasmic reticulum-mitochondrial axisMitochondria as a target in treatmentIdentification of putative potassium channel homologues in pathogenic protozoaIdentification and analysis of cation channel homologues in human pathogenic fungiKv3.4 is modulated by HIF-1α to protect SH-SY5Y cells against oxidative stress-induced neural cell deathBax inhibitor-1-mediated inhibition of mitochondrial Ca2+ intake regulates mitochondrial permeability transition pore opening and cell death.Constriction of the mitochondrial inner compartment is a priming event for mitochondrial division.Mitochondrial ion channels as therapeutic targets.Cardioprotective effects of PKG activation by soluble GC activator, BAY 60-2770, in ischemia-reperfusion-injured rat hearts.Voltage-dependent inwardly rectifying potassium conductance in the outer membrane of neuronal mitochondria.Identification of protein networks involved in the disease course of experimental autoimmune encephalomyelitis, an animal model of multiple sclerosisPutative Structural and Functional Coupling of the Mitochondrial BKCa Channel to the Respiratory ChainMitochondrial membrane potential probes and the proton gradient: a practical usage guideSingle channel characterization of the mitochondrial ryanodine receptor in heart mitoplasts.SK3 channel and mitochondrial ROS mediate NADPH oxidase-independent NETosis induced by calcium influx.Homeostasis of redox status derived from glucose metabolic pathway could be the key to understanding the Warburg effect.Autophagic degradation of aquaporin-2 is an early event in hypokalemia-induced nephrogenic diabetes insipidusCardiac Slo2.1 Is Required for Volatile Anesthetic Stimulation of K+ Transport and Anesthetic Preconditioning.Mitochondrial Ultrastructure and Glucose Signaling Pathways Attributed to the Kv1.3 Ion Channel.Energetic performance is improved by specific activation of K+ fluxes through K(Ca) channels in heart mitochondria.Interaction of mitochondrial potassium channels with the permeability transition pore.Electrophysiology clarifies the megariddles of the mitochondrial permeability transition pore.Mitochondrial potassium channels and reactive oxygen species.Potassium channels in the mitochondria of unicellular eukaryotes and plants.Mitochondrial chloride channels--What are they for?Contribution of voltage-gated potassium channels to the regulation of apoptosis.Effects of human T-cell leukemia virus type 1 (HTLV-1) p13 on mitochondrial K+ permeability: A new member of the viroporin family?Pharmacology of mitochondrial potassium channels: dark side of the field.Physiology of potassium channels in the inner membrane of mitochondria.Mitochondria as a pharmacological target: magnum overview.Mitochondrial channels: ion fluxes and more.Mitochondrial potassium channels as pharmacological target for cardioprotective drugs.Altered fusion dynamics underlie unique morphological changes in mitochondria during hypoxia-reoxygenation stress.A new fluorescent dye for cell tracing and mitochondrial imaging in vitro and in vivo.Silencing the KCNK9 potassium channel (TASK-3) gene disturbs mitochondrial function, causes mitochondrial depolarization, and induces apoptosis of human melanoma cells.The Roles of Mitochondrial Cation Channels Under Physiological Conditions and in Cancer.Large-conductance Ca²⁺-activated potassium channel in mitochondria of endothelial EA.hy926 cells.Homeostasis of redox status derived from glucose metabolic pathway could be the key to understanding the Warburg effect.
P2860
Q26744639-8ADFA929-6940-493C-BCE4-E964F5665F63Q26796569-CF5F0FF2-52EF-496F-97A6-460AE7486DB5Q26823387-B8EBC71A-A533-46D5-9E50-AD1A3A078493Q28382780-E1D76F8B-B8B2-40ED-9328-3FC0A0058F12Q28481066-9EB6FAF9-8255-49D9-B8FD-C47BF9059FD0Q28481844-526701C0-0532-483D-913E-43DFFE866C51Q30851783-19408120-5EB0-452D-BBF6-C665F889C95BQ33713490-0E9142DA-1459-4A69-BE65-271B0706FFCAQ33804563-2AF96BBB-8942-4C9B-9ACD-A9DADDD3C501Q33857921-3E2CCFC1-E058-4397-816E-233644178842Q33865769-6E7C5554-5022-4064-B406-F2663E5C1251Q34094637-ED266347-75F7-403C-920B-10AFDBDC8A9EQ34243876-7F7F7351-BB10-42C8-8013-EDA587D8BD2DQ34797809-6D0C8745-D08E-4B26-AD83-2A35720B887AQ35047150-444202B2-8FFC-4F3D-B230-4AD95A6FD3CBQ35065175-8736DD99-0DF1-45FA-97FD-DCEDA0D828CCQ35156878-78580142-3D48-4B6E-B260-202A704DBCC9Q35666395-96ED877A-6D3F-4484-9C80-1AEBC43E55A7Q36379489-7363EBFC-DFFF-4DBB-A82F-897CCBB5E28AQ36813857-D85C4A2A-7C28-4EF4-A437-62E6F298324AQ36913999-C87A5969-AF65-4437-A975-A8149F2659E3Q37456217-76D7323C-68DC-4708-8D5A-185E1A8F47A4Q37663104-1409D3A9-29F7-4C66-9B84-0E137E8C7F5AQ37676566-36A50644-044B-4184-9FFF-65BEB9C78BDAQ37676568-6A8A06E8-ECA4-4B9A-9951-D397C72E6CB3Q37677228-FFD04007-D76B-4622-B3E1-FF4BD427D13FQ37681104-2D965CCC-DF5D-40EC-8D17-53C75CB987B4Q37681686-4D370CFB-CE26-4DDF-8DAB-C5203EE54D6DQ37695355-5FA0A1CB-D8DE-4DA0-9D4C-0EC2FB68E3A6Q37697271-3E94C980-DB90-4331-941E-5714784A6408Q37956990-63DFD773-22BF-4D52-B002-A6180195239AQ38084631-F2031843-4FA3-4E24-85E2-246C7B58D11FQ38201407-DC587ADE-D2FC-41A3-8701-47B59F8415E8Q38262884-5781B3B1-CF7E-46E7-BA10-19D73C1B84E0Q38391962-8CE7EE1E-BBC0-4A49-9E0F-C63EE0B0A466Q38819766-727E4FB7-5FCC-45EF-B4B7-6AF58986A49EQ38947652-BC88FE69-F3E7-425D-93FA-EB4D196C07EDQ39044112-3200EA77-E55F-4116-A5A3-A75D2262C3F3Q39173294-83299741-08D1-42BD-A606-8CC12305AEC4Q42421244-AA11D2C8-4F9C-44CF-8B35-F7CE651F86D3
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on February 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mitochondrial potassium channels.
@en
Mitochondrial potassium channels.
@nl
type
label
Mitochondrial potassium channels.
@en
Mitochondrial potassium channels.
@nl
prefLabel
Mitochondrial potassium channels.
@en
Mitochondrial potassium channels.
@nl
P2860
P50
P356
P1433
P1476
Mitochondrial potassium channels
@en
P2093
Adam Szewczyk
Wolfram S Kunz
P2860
P304
P356
10.1002/IUB.155
P577
2009-02-01T00:00:00Z