Add to ORKGVoltage-gated potassium (KV ) channels are key regulators of vascular smooth muscle contractility and vascular tone, and thus have major influence on the microcirculation. KV channels are important determinants of vascular smooth muscle membrane potential (Em ). A number of KV subunits are expressed in the plasma membrane of smooth muscle cells. Each subunit confers distinct kinetics and regulatory properties that allow for fine control of Em to orchestrate vascular tone. Modifications in KV subunit expression and/or channel activity can contribute to changes in vascular smooth muscle contractility in response to different stimuli and in diverse pathological conditions. Consistent with this, a number of studies suggest alterations in KV sub...
Voltage-gated Kv7 (or KCNQ) potassium channels control the activity of excitable cells, including va...
Abstract—Small arteries play an essential role in the regulation of blood pressure and organ-specifi...
I t is rather over a decade since vascular ATP-sensitivepotassium (KATP) channels were first identif...
Voltage-dependent K+ (Kv) channels represent the most diverse group of K+ channels ubiquitously expr...
Arterial tone is tightly regulated by a variety of potassium (K+ ) permeable ion channels at the sar...
In smooth muscle cells, potassium channels play an important role in the regulation of the membrane ...
Diabetes affects millions of people worldwide. This devastating disease dramatically increases the r...
Abstract—Ion channels in the plasma membrane of vascular muscle cells that form the walls of resista...
Enhanced arterial tone is a leading cause of vascular complications during diabetes. Voltage-gated K...
This thesis focused 011 the role of voltage-gated K+ channels encoded by KCNQ genes (Kv 7 channell) ...
Through their control of cell membrane potential, potassium (K+) channels are among the best known r...
Resumen del trabajo presentado al VI Meeting de la Red Española de Canales Ióniocs (RECI), celebrado...
K(+) channels play indispensable roles in establishing the membrane potential and in regulating the ...
OBJECTIVE: We have previously described that changes in the expression of Kv channels associate to p...
adds to an expanding body of evidence suggesting pivotal roles of the voltage-gated potassium channe...
Voltage-gated Kv7 (or KCNQ) potassium channels control the activity of excitable cells, including va...
Abstract—Small arteries play an essential role in the regulation of blood pressure and organ-specifi...
I t is rather over a decade since vascular ATP-sensitivepotassium (KATP) channels were first identif...
Voltage-dependent K+ (Kv) channels represent the most diverse group of K+ channels ubiquitously expr...
Arterial tone is tightly regulated by a variety of potassium (K+ ) permeable ion channels at the sar...
In smooth muscle cells, potassium channels play an important role in the regulation of the membrane ...
Diabetes affects millions of people worldwide. This devastating disease dramatically increases the r...
Abstract—Ion channels in the plasma membrane of vascular muscle cells that form the walls of resista...
Enhanced arterial tone is a leading cause of vascular complications during diabetes. Voltage-gated K...
This thesis focused 011 the role of voltage-gated K+ channels encoded by KCNQ genes (Kv 7 channell) ...
Through their control of cell membrane potential, potassium (K+) channels are among the best known r...
Resumen del trabajo presentado al VI Meeting de la Red Española de Canales Ióniocs (RECI), celebrado...
K(+) channels play indispensable roles in establishing the membrane potential and in regulating the ...
OBJECTIVE: We have previously described that changes in the expression of Kv channels associate to p...
adds to an expanding body of evidence suggesting pivotal roles of the voltage-gated potassium channe...
Voltage-gated Kv7 (or KCNQ) potassium channels control the activity of excitable cells, including va...
Abstract—Small arteries play an essential role in the regulation of blood pressure and organ-specifi...
I t is rather over a decade since vascular ATP-sensitivepotassium (KATP) channels were first identif...