
Ketamine-induced hypnosis and neuroplasticity in mice is associated with disrupted p-MEK/p-ERK sequential activation and sustained upregulation of survival p-FADD in brain cortex: Involvement of GABAA receptor
Keywords: Ketamine; Hypnosis; Neuroplasticity; MEK-ERK; FADD; NF-kB; Mouse brain; CNS; central nervous system; Elk-1; nuclear substrate belonging to the family of ETS domain-containing transcription factors; ERK; extracellular signal-regulated kinase; FADD; Fas-ass