Two-Pore Domain K+ Channel Antibody Explorer Kit

A Screening Package of Two-Pore Domain K+ Channel Antibodies Economically Priced
  • Lyophilized Powder
  • Antigen Incl.
Cat #: AK-202
Last update: 24/01/2020

Alomone Labs is pleased to offer the Two-Pore Domain K+ Channel Antibody Explorer Kit (#AK-202). This Explorer Kit includes antibodies targeted against K2P channels along with their respective peptide control antigen. An ideal tool for screening purposes.

For research purposes only, not for human use


Product NameCat #Size
Anti-KCNK1 (TWIK-1) (extracellular) Antibody
APC-110 1 x 50 µl
Anti-KCNK2 (TREK-1) Antibody
APC-047 1 x 50 µl
Guinea pig Anti-KCNK2 (TREK-1) Antibody
AGP-049 1 x 50 µl
Anti-KCNK3 (TASK-1) Antibody
APC-024 1 x 50 µl
Anti-KCNK4 (TRAAK) Antibody
APC-108 1 x 50 µl
Anti-KCNK5 (TASK-2) Antibody
APC-037 1 x 50 µl
Anti-KCNK6 (TWIK-2) Antibody
APC-040 1 x 50 µl
Anti-KCNK9 (TASK-3) (extracellular) Antibody
APC-044 1 x 50 µl
Anti-KCNK10 (TREK-2) Antibody
APC-055 1 x 50 µl
Anti-KCNK12 (THIK-2) (extracellular) Antibody
APC-169 1 x 50 µl
Anti-KCNK13 (THIK-1) (extracellular) Antibody
APC-121 1 x 50 µl
Anti-KCNK15 (TASK-5) (extracellular) Antibody
APC-158 1 x 50 µl
Anti-KCNK16 (TALK-1) (extracellular) Antibody
APC-170 1 x 50 µl
Anti-KCNK18 (TRESK) (extracellular) Antibody
APC-122 1 x 50 µl
Note A Guinea pig polyclonal antibody (#AGP-049) is included in this Explorer Kit. Please take into account when reacting with a secondary antibody.

Scientific Background

Scientific Background
    • The two-pore domain K+ channel (K2P) family consists of 15 members which are further divided to six subfamilies on the basis of their structural and functional properties. All family members are tightly controlled by various chemical and physical stimuli such as pH, oxygen tension, lipids, mechanical stretch, G-protein coupled receptors, transmitters and other endogenous modulators, and are targets for clinically important compounds such as volatile anesthetic. These channels are also known as "leak channels". This name is given since they are open across the physiological voltage range, show little voltage or time dependence and are believed to underlie many of the K+ leak currents. This leak is active during the rest period of excitable cells, stabilizes membrane potential below firing threshold and hastens repolarization in many neurons including cerebellar granular neurons.
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