The Kv2. 1 C terminus can autonomously transfer Kv2. 1-like phosphorylation-dependent localization, voltage-dependent gating, and muscarinic modulation to …
DP Mohapatra, JS Trimmer - Journal of Neuroscience, 2006 - Soc Neuroscience
Modulation of K+ channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+ (IK) …
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+ (IK) …
The Kv2. 1 C terminus can autonomously transfer Kv2. 1-like phosphorylation-dependent localization, voltage-dependent gating, and muscarinic modulation to …
DP Mohapatra, JS Trimmer - … of Neuroscience: the Official Journal of …, 2006 - europepmc.org
Modulation of K+ channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
[PDF][PDF] The Kv2. 1 C Terminus Can Autonomously Transfer Kv2. 1-Like Phosphorylation-Dependent Localization, Voltage-Dependent Gating, and Muscarinic …
DP Mohapatra, JS Trimmer - The Journal of Neuroscience, 2006 - scholar.archive.org
Modulation of K channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K channel Kv2. 1 is an abundant delayed rectifier K (IK) …
excitability. The voltage-gated K channel Kv2. 1 is an abundant delayed rectifier K (IK) …
[PDF][PDF] The Kv2. 1 C Terminus Can Autonomously Transfer Kv2. 1-Like Phosphorylation-Dependent Localization, Voltage-Dependent Gating, and Muscarinic …
DP Mohapatra, JS Trimmer - The Journal of Neuroscience, 2006 - Soc Neuroscience
Modulation of K channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K channel Kv2. 1 is an abundant delayed rectifier K (IK) …
excitability. The voltage-gated K channel Kv2. 1 is an abundant delayed rectifier K (IK) …
The Kv2. 1 C terminus can autonomously transfer Kv2. 1-like phosphorylation-dependent localization, voltage-dependent gating, and muscarinic modulation to …
DP Mohapatra, JS Trimmer - Journal of Neuroscience, 2006 - profiles.wustl.edu
Modulation of K+ channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
[HTML][HTML] The Kv2. 1 C Terminus Can Autonomously Transfer Kv2. 1-Like Phosphorylation-Dependent Localization, Voltage-Dependent Gating, and Muscarinic …
DP Mohapatra, JS Trimmer - The Journal of Neuroscience, 2006 - ncbi.nlm.nih.gov
Modulation of K+ channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
The Kv2. 1 C Terminus Can Autonomously Transfer Kv2. 1-Like Phosphorylation-Dependent Localization, Voltage-Dependent Gating, and Muscarinic Modulation to …
DP Mohapatra, JS Trimmer - The Journal of Neuroscience, 2006 - cir.nii.ac.jp
抄録< jats: p> Modulation of K< jats: sup>+</jats: sup> channels is widely used to
dynamically regulate neuronal membrane excitability. The voltage-gated K< jats …
dynamically regulate neuronal membrane excitability. The voltage-gated K< jats …
The Kv2. 1 C terminus can autonomously transfer Kv2. 1-like phosphorylation-dependent localization, voltage-dependent gating, and muscarinic modulation to …
DP Mohapatra, JS Trimmer - The Journal of neuroscience …, 2006 - pubmed.ncbi.nlm.nih.gov
Modulation of K+ channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+ (IK) …
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+ (IK) …
The Kv2. 1 C terminus can autonomously transfer Kv2. 1-like phosphorylation-dependent localization, voltage-dependent gating, and muscarinic modulation to …
DP Mohapatra, JS Trimmer - … of Neuroscience: the Official Journal of …, 2006 - europepmc.org
Modulation of K+ channels is widely used to dynamically regulate neuronal membrane
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …
excitability. The voltage-gated K+ channel Kv2. 1 is an abundant delayed rectifier K+(IK) …