20655-GO

Definition: 
activation of MAPK activity
response to reactive oxygen species
response to superoxide
ovarian follicle development
positive regulation of cytokine production
retina homeostasis
myeloid cell homeostasis
superoxide dismutase activity
copper ion binding
protein binding
extracellular space
intracellular
cell
nucleus
cytoplasm
mitochondrion
peroxisome
cytosol
plasma membrane
glutathione metabolic process
superoxide metabolic process
cellular iron ion homeostasis
response to oxidative stress
spermatogenesis
embryo implantation
aging
cell aging
sensory perception of sound
locomotory behavior
anterograde axon cargo transport
retrograde axon cargo transport
regulation of blood pressure
zinc ion binding
response to heat
response to organic substance
antioxidant activity
oxidoreductase activity
transmission of nerve impulse
removal of superoxide radicals
protein phosphatase 2B binding
extracellular matrix
cytoplasmic vesicle
response to nutrient levels
peripheral nervous system myelin maintenance
regulation of Rac GTPase activity
dendrite cytoplasm
positive regulation of superoxide anion generation
regulation of multicellular organism growth
response to drug
response to hydrogen peroxide
superoxide anion generation
identical protein binding
neuronal cell body
negative regulation of apoptotic process
positive regulation of catalytic activity
protein complex
negative regulation of neuron apoptotic process
response to ethanol
negative regulation of cholesterol biosynthetic process
regulation of protein kinase activity
response to copper ion
muscle cell cellular homeostasis
metal ion binding
Rac GTPase binding
response to axon injury
hydrogen peroxide biosynthetic process
chaperone binding
regulation of mitochondrial membrane potential
oxidation-reduction process
heart contraction
neurofilament cytoskeleton organization
relaxation of vascular smooth muscle
auditory receptor cell stereocilium organization
reactive oxygen species metabolic process
positive regulation of intrinsic apoptotic signaling pathway in response to oxidative stress