Add to ORKGKv1.4 channel Ball and chain model Electrostatic interaction an hile in ” inactivation mechanism, the chain structure of the channel has not been well g electrophysiological studies on variants containing mutations of the positively terminating and setting the firing frequency of the nerve impulse, while inactivating channels, giving further evidence for the inactivation bal
The electrical signalling properties of neurons originate largely from the gating properties of thei...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signali...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signall...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signali...
AbstractRapid inactivation of voltage-gated potassium channel plays an important role in shaping the...
Inactivation and recovery from inactivation of Kv4 voltage-gated potassium channels are thought to r...
AbstractKv1.4 channels are Shaker-related voltage-gated potassium channels with two distinct inactiv...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signall...
The KCNA2 gene encodes the Kv1.2 channel, a mammalian Shaker-like voltage-gated K+ channel, whose de...
Inactivation of potassium currents during maintained firing results in a progressive increase in act...
Inactivation is the auto-regulatory process of A-type voltage-gated K + (Kv) channels. Kv channels m...
Inactivation is the auto-regulatory process of A-type voltage-gated K + (Kv) channels. Kv channels m...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
The electrical signalling properties of neurons originate largely from the gating properties of thei...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signali...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signall...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signali...
AbstractRapid inactivation of voltage-gated potassium channel plays an important role in shaping the...
Inactivation and recovery from inactivation of Kv4 voltage-gated potassium channels are thought to r...
AbstractKv1.4 channels are Shaker-related voltage-gated potassium channels with two distinct inactiv...
AbstractInactivation of potassium channels plays an important role in shaping the electrical signall...
The KCNA2 gene encodes the Kv1.2 channel, a mammalian Shaker-like voltage-gated K+ channel, whose de...
Inactivation of potassium currents during maintained firing results in a progressive increase in act...
Inactivation is the auto-regulatory process of A-type voltage-gated K + (Kv) channels. Kv channels m...
Inactivation is the auto-regulatory process of A-type voltage-gated K + (Kv) channels. Kv channels m...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
The electrical signalling properties of neurons originate largely from the gating properties of thei...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...
Poster presented at Society for Neuroscience Abstract: A-type voltage-gated K+ channels auto-regula...