All changes for the tissue nervous system (68)

Identifier Name Type Tissues Organism Gene Data Actions
DAA764 Depolarization of mitochondria Physiological brain Human
DAA717 Dendrite regression, reduction in dendrite length Physiological brain Human
DAA739 Degeneration of dopamine neurons and receptors Physiological brain Human
DAA740 Cortical plasticity decreases Physiological brain Human
DAA738 Cerebral spinal fluid amount increases Physiological brain Human
DAA741 Cerebral blood flow and glucose utilization are reduced Physiological brain Human
DAA765 Calcium binding capacity decreases in neurons Physiological brain Human
DAA1993 Brain volume decreases in a regional-specific way Physiological brain Human
DAA1217 Brain volume decrease Physiological brain Human
DAA728 Brain matter volume declines Physiological brain Human
DAA1996 Beta-amyloid protein deposition increases Physiological brain Human APP
DAA2041 Altered brain mitochondrial metabolism Physiological brain Human
DAA723 Accumulation of extracellular neuritic plaques Physiological brain Human
DAA785 Reduced hippocampal activity and functional connectivity in tests for verbal familiarity Physiological brain Human
DAA1948 Neurogenesis is reduced Physiological brain Mouse
DAA724 Global neuron loss Physiological cerebral cortex Human
DAA732 Glial cell number Physiological cerebral cortex Human
DAA2026 Mutations in mitochondrial DNA accumulate Physiological heart, kidney, skeletal muscle, cerebral cortex, cerebellum Human
DAA718 Synaptic density slightly decreases at advanced ages Physiological frontal lobe Human
DAA1984 Layer-specific dendritic regression of pyramidal cells Physiological prefrontal cortex Human
DAA2036 Neural stem cell pool declines Physiological hippocampus Mouse
DAA743 Sensitivity of HPA axis is impaired Physiological pituitary gland, adrenal gland, hypothalamus Human
DAA722 Accumulation of neuromelanin in dopaminergic nigral neurons Physiological substantia nigra Human
DAA1981 Selective increase in oxidative damage and decrease in antioxidant function during aging in the substantia nigra Physiological substantia nigra Human
DAA2026 Mutations in mitochondrial DNA accumulate Physiological heart, kidney, skeletal muscle, cerebral cortex, cerebellum Human