Wiki-Pi
Answer Survey
Home
About
Help
Advanced Search
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