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The antibody against KCNA4 was raised in Rabbit using a synthetic peptide corresponding to a sequence within amino acids 250-350 of human KCNA4 (NP_002224.1) as the immunogen. The polyclonal antibody exists as a isotype IgG, by affinity purification. This antibody has been validated on WB, ELISA.
The antibody against KCNA4 was raised in Rabbit using a synthetic peptide corresponding to a sequence within amino acids 250-350 of human KCNA4 (NP_002224.1) as the immunogen. The polyclonal antibody exists as a isotype IgG, by affinity purification. This antibody has been validated on WB, ELISA.
| Cat.No | ADA-08745A | Clonality | Polyclonal |
|---|---|---|---|
| Host Species | Rabbit | Target Name | KCNA4 |
| Target Synonyms | HK1; HBK4; PCN2; HPCN2; HUKII; KCNA8; KV1.4; KCNA4L; MCIDDS; KCNA4 | Form | Liquid |
| Species Reactivity | Mouse, Rat | Isotype | IgG |
| Storage Buffer | 50% Glycerol, PBS with 0.01% thimerosal, pH7.3. | Purification Method | Affinity purification |
| Positive Samples | Rat brain | Application | ELISA, WB |
| Immunogen Description | A synthetic peptide corresponding to a sequence within amino acids 250-350 of human KCNA4 (NP_002224.1). | Target Species | Human |
|---|---|---|---|
| Immunogen Sequence | DIFTEEVKFYQLGEEALLKFREDEGFVREEEDRALPENEFKKQIWLLFEYPESSSPARGIAIVSVLVILISIVIFCLETLPEFRDDRDLVMALSAGGHGGL | Uniprot ID | P22459 |
Uniprot Id
P22459
Target Species
Human
Target Name
KCNA4
Target Full Name
Potassium voltage-gated channel subfamily A member 4
Target Function
Voltage-gated potassium channel that mediates transmembrane potassium transport in excitable membranes. Forms tetrameric potassium-selective channels through which potassium ions pass in accordance with their electrochemical gradient. The channel alternates between opened and closed conformations in response to the voltage difference across the membrane. Can form functional homotetrameric channels and heterotetrameric channels that contain variable proportions of KCNA1, KCNA2, KCNA4, KCNA5, and possibly other family members as well; channel properties depend on the type of alpha subunits that are part of the channel. Channel properties are modulated by cytoplasmic beta subunits that regulate the subcellular location of the alpha subunits and promote rapid inactivation. In vivo, membranes probably contain a mixture of heteromeric potassium channel complexes, making it difficult to assign currents observed in intact tissues to any particular potassium channel family member. Homotetrameric KCNA4 forms a potassium channel that opens in response to membrane depolarization, followed by rapid spontaneous channel closure. Likewise, a heterotetrameric channel formed by KCNA1 and KCNA4 shows rapid inactivation.
Target Subcellular Location
Cell membrane; Multi-pass membrane protein. Cell projection, axon.
Target Protein Families
Potassium channel family, A (Shaker) (TC 1.A.1.2) subfamily, Kv1.4/KCNA4 sub-subfamily
Target Tissue Specificity
Expressed in brain, and at lower levels in the testis, lung, kidney, colon and heart. Detected in heart ventricle.
Target Synonyms
KCNA4; KCNA4L; Potassium voltage-gated channel subfamily A member 4; HPCN2; Voltage-gated K(+ channel HuKII; Voltage-gated potassium channel HBK4; Voltage-gated potassium channel HK1; Voltage-gated potassium channel subunit Kv1.4
Target Background
Potassium channels represent the most complex class of voltage-gated ion channels from both functional and structural standpoints. Their diverse functions include regulating neurotransmitter release, heart rate, insulin secretion, neuronal excitability, epithelial electrolyte transport, smooth muscle contraction, and cell volume. Four sequence-related potassium channel genes - shaker, shaw, shab, and shal - have been identified in Drosophila, and each has been shown to have human homolog(s). This gene encodes a member of the potassium channel, voltage-gated, shaker-related subfamily. This member contains six membrane-spanning domains with a shaker-type repeat in the fourth segment. It belongs to the A-type potassium current class, the members of which may be important in the regulation of the fast repolarizing phase of action potentials in heart and thus may influence the duration of cardiac action potential.
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