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Potassium Channels, Tandem Pore Domain

Known as: K+ Channels, Tandem Pore Domain, Background Potassium Channel, Potassium Channel, Tandem Pore Domain 
Potassium channels that contain two pores in tandem. They are responsible for baseline or leak currents and may be the most numerous of all K… Expand
National Institutes of Health

Papers overview

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Highly Cited
2008
Highly Cited
2008
Neurons important for cognitive function are often classified by their morphology and integrative properties. However, it is… Expand
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Highly Cited
2006
Highly Cited
2006
Depression is a devastating illness with a lifetime prevalence of up to 20%. The neurotransmitter serotonin or 5… Expand
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Highly Cited
2004
Highly Cited
2004
TREK‐1 is a two‐pore‐domain background potassium channel expressed throughout the central nervous system. It is opened by… Expand
Review
2003
Review
2003
  • F. Lesage
  • Neuropharmacology
  • 2003
  • Corpus ID: 21639656
Background or leak conductances are a major determinant of membrane resting potential and input resistance, two key components of… Expand
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Highly Cited
2002
Highly Cited
2002
TASK-1 and TASK-3, members of the two-pore-domain channel family, are widely expressed leak potassium channels responsible for… Expand
Highly Cited
2000
Highly Cited
2000
Tandem pore domain acid-sensitive K+ channel 3 (TASK-3) is a new member of the tandem pore domain potassium channel family. A… Expand
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Highly Cited
2000
Highly Cited
2000
1 The biophysical and pharmacological properties of an oxygen‐sensitive background K+ current in rat carotid body type‐I cells… Expand
Highly Cited
1999
Highly Cited
1999
BACKGROUND Recently, a new structural family of potassium channels characterized by two pore domains in tandem within their… Expand
Highly Cited
1999
Highly Cited
1999
Potassium channels are found in all mammalian cell types, and they perform many distinct functions in both excitable and non… Expand
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Highly Cited
1998
Highly Cited
1998
Tandem pore domain K+ channels represent a new family of ion channels involved in the control of background membrane conductances… Expand
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