Add to ORKGTwo-pore domain K+ (K2P) channels are thought to underlie background K+ conductance in many cell types. The Trek subfamily of K2P channels consists of three members, Trek1/Kcnk2, Trek2/Kcnk10, and Traak/Kcnk4, all three of which are expressed in the rodent CNS. Constitutive ablation of the Trek1 gene in mice correlates with enhanced sensitivity to ischemia and epilepsy, decreased sensitivity to the effects of inhaled anesthetics, increased sensitivity to thermal and mechanical pain, and resistance to depression. While the distribution of Trek2 mRNA in the CNS is broad, little is known about the relevance of this Trek family member to neurobiology and behavior. Here, we probed the effect of constitutive Trek2 ablation, as well as the simulta...
Several types of neurons within the central and peripheral somatic nervous system express two-pore-d...
Changes in the complement or function of ion channels can drastically affect individual neurons and ...
Background K+ conductances are a major determinant of membrane resting potential and input resistanc...
Two-pore domain K+ (K2P) channels are thought to underlie background K+ conductance in many cell typ...
University of Minnesota Ph.D. dissertation. October 2012. Major: Pharmacology. Advisor:Kevin D. Wick...
Earlier studies have demonstrated that the tandem pore domain weak inward rectifying K+ channel (TWI...
Depression is a devastating illness with a lifetime prevalence of up to 20%. The neurotransmitter se...
Two-pore domain potassium (K(2P)) channels modulate neuronal excitability throughout the entire CNS....
The background potassium channel TREK-1 has been shown to be a potent target for depression treatmen...
International audienceTREK‐1 is a two‐pore‐domain background potassium channel expressed throughout ...
TREK-1 is the most studied background K2P channel. Its main role is to control cell excitability and...
International audiencePotassium (K+) channels are membrane proteins expressed in most living cells t...
Two-pore-domain K(+) (K(2P)) channel subunits are made up of four transmembrane segments and two por...
Recent evidence points to a pivotal contribution of a variety of different potassium channels, inclu...
The distribution of two-pore-domain (2P-domain) K+ channels of the TREK subfamily was studied using ...
Several types of neurons within the central and peripheral somatic nervous system express two-pore-d...
Changes in the complement or function of ion channels can drastically affect individual neurons and ...
Background K+ conductances are a major determinant of membrane resting potential and input resistanc...
Two-pore domain K+ (K2P) channels are thought to underlie background K+ conductance in many cell typ...
University of Minnesota Ph.D. dissertation. October 2012. Major: Pharmacology. Advisor:Kevin D. Wick...
Earlier studies have demonstrated that the tandem pore domain weak inward rectifying K+ channel (TWI...
Depression is a devastating illness with a lifetime prevalence of up to 20%. The neurotransmitter se...
Two-pore domain potassium (K(2P)) channels modulate neuronal excitability throughout the entire CNS....
The background potassium channel TREK-1 has been shown to be a potent target for depression treatmen...
International audienceTREK‐1 is a two‐pore‐domain background potassium channel expressed throughout ...
TREK-1 is the most studied background K2P channel. Its main role is to control cell excitability and...
International audiencePotassium (K+) channels are membrane proteins expressed in most living cells t...
Two-pore-domain K(+) (K(2P)) channel subunits are made up of four transmembrane segments and two por...
Recent evidence points to a pivotal contribution of a variety of different potassium channels, inclu...
The distribution of two-pore-domain (2P-domain) K+ channels of the TREK subfamily was studied using ...
Several types of neurons within the central and peripheral somatic nervous system express two-pore-d...
Changes in the complement or function of ion channels can drastically affect individual neurons and ...
Background K+ conductances are a major determinant of membrane resting potential and input resistanc...