KCNJ8

Gene Name		potassium channel, inwardly rectifying subfamily J, member 8
Image		No pdb structure
Gene Ontology Annotations	Cellular Component	Mitochondrion Plasma Membrane Voltage-gated Potassium Channel Complex ATP-sensitive Potassium Channel Complex Myofibril Sarcolemma
	Molecular Function	Inward Rectifier Potassium Channel Activity ATP Binding ATP-activated Inward Rectifier Potassium Channel Activity G-protein Activated Inward Rectifier Potassium Channel Activity Sulfonylurea Receptor Binding
	Biological Process	Kidney Development Potassium Ion Transport Synaptic Transmission Heart Development Response To PH Potassium Ion Import Response To Lipopolysaccharide Regulation Of Ion Transmembrane Transport Vasodilation Response To Exogenous DsRNA Defense Response To Virus
Pathways		Inwardly rectifying K+ channels ATP sensitive Potassium channels Potassium Channels
Drugs
Diseases
GWAS
Protein-protein Interactions		4 interactors: ABCC8 ABCC9 KCNJ11 KCNJ2
Entrez ID		3764
HPRD ID		02962
Ensembl ID		ENSG00000121361
Uniprot IDs		Q15842
PDB IDs
Enriched GO Terms of Interacting Partners?		Potassium Ion Import Potassium Ion Transmembrane Transport Potassium Ion Transport Synaptic Transmission Monovalent Inorganic Cation Transport Metal Ion Transport Cell-cell Signaling Cation Transmembrane Transport Cation Transport Ion Transmembrane Transport Transmembrane Transport Ion Transport Positive Regulation Of Ion Transmembrane Transport Regulation Of Skeletal Muscle Contraction Via Regulation Of Action Potential Energy Reserve Metabolic Process Relaxation Of Skeletal Muscle Positive Regulation Of Ion Transport Regulation Of Insulin Secretion Regulation Of Peptide Hormone Secretion Regulation Of Hormone Secretion Regulation Of Membrane Potential Energy Derivation By Oxidation Of Organic Compounds Cellular Response To Nicotine Regulation Of Resting Membrane Potential Cellular Potassium Ion Homeostasis Regulation Of Skeletal Muscle Contraction Regulation Of Protein Secretion Membrane Repolarization During Cardiac Muscle Cell Action Potential Membrane Repolarization During Action Potential Generation Of Precursor Metabolites And Energy Regulation Of Ion Transmembrane Transport Transport Membrane Depolarization During Cardiac Muscle Cell Action Potential Membrane Repolarization Relaxation Of Cardiac Muscle Potassium Ion Homeostasis Positive Regulation Of Potassium Ion Transmembrane Transport Cellular Chemical Homeostasis Signaling Cell Communication Relaxation Of Muscle Regulation Of Membrane Repolarization Regulation Of Heart Rate By Cardiac Conduction Regulation Of Ion Transport Regulation Of Protein Transport Magnesium Ion Transport Regulation Of Secretion Response To ATP Regulation Of Establishment Of Protein Localization Cardiac Muscle Cell Action Potential Involved In Contraction
Tagcloud ?		abundances agt ahr amongst aryl came car3 coherency constitutive contrasting creg1 ctsc e2f6 enpp1 gatm gstm4 halogenated hydrocarbon hydrocarbons inferences me1 overlap pdk1 physiologic profiled slc35a3 sqrdl transcriptomic xenobiotic