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Rabbit anti-Human KCNA2 Polyclonal Antibody

The antibody against KCNA2 was raised in Rabbit using the recombinant fusion protein containing a sequence corresponding to amino acids 1-165 of human KCNA2 (NP_004965.1) as the immunogen. The polyclonal antibody exists as a isotype IgG, by affinity purification. This antibody has been validated on WB, IF/ICC, ELISA.

ADA-09511A

The antibody against KCNA2 was raised in Rabbit using the recombinant fusion protein containing a sequence corresponding to amino acids 1-165 of human KCNA2 (NP_004965.1) as the immunogen. The polyclonal antibody exists as a isotype IgG, by affinity purification. This antibody has been validated on WB, IF/ICC, ELISA.

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Specifications


Cat.No ADA-09511A ClonalityPolyclonal
Host SpeciesRabbitTarget NameKCNA2
Target SynonymsHK4; MK2; HBK5; NGK1; RBK2; DEE32; HUKIV; KV1.2; EIEE32; KCNA2FormLiquid
Species ReactivityHuman, MouseIsotypeIgG
Storage Buffer50% Glycerol, PBS with 0.02% sodium azide, pH7.3.Purification MethodAffinity purification
Positive SamplesMouse plasmaApplicationELISA, WB, IF/ICC

Immunogen Information


Immunogen DescriptionRecombinant fusion protein containing a sequence corresponding to amino acids 1-165 of human KCNA2 (NP_004965.1).Target SpeciesHuman
Immunogen SequenceMTVATGDPADEAAALPGHPQDTYDPEADHECCERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGYIKEEERPLPENEFQRQVWLLFEYPESSGPARIIUniprot IDP16389
Background Information
  • Uniprot Id

    P16389

  • Target Species

    Human

  • Target Name

    KCNA2

  • Target Full Name

    Potassium voltage-gated channel subfamily A member 2

  • Target Function

    Voltage-gated potassium channel that mediates transmembrane potassium transport in excitable membranes, primarily in the brain and the central nervous system, but also in the cardiovascular system. Prevents aberrant action potential firing and regulates neuronal output. 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, KCNA6, KCNA7, 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 of delayed rectifier potassium channels. 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 KCNA2 forms a delayed-rectifier potassium channel that opens in response to membrane depolarization, followed by slow spontaneous channel closure. In contrast, a heteromultimer formed by KCNA2 and KCNA4 shows rapid inactivation. Regulates neuronal excitability and plays a role as pacemaker in the regulation of neuronal action potentials. KCNA2-containing channels play a presynaptic role and prevent hyperexcitability and aberrant action potential firing. Response to toxins that are selective for KCNA2-containing potassium channels suggests that in Purkinje cells, dendritic subthreshold KCNA2-containing potassium channels prevent random spontaneous calcium spikes, suppressing dendritic hyperexcitability without hindering the generation of somatic action potentials, and thereby play an important role in motor coordination. Plays a role in the induction of long-term potentiation of neuron excitability in the CA3 layer of the hippocampus. May function as down-stream effector for G protein-coupled receptors and inhibit GABAergic inputs to basolateral amygdala neurons. May contribute to the regulation of neurotransmitter release, such as gamma-aminobutyric acid (GABA). Contributes to the regulation of the axonal release of the neurotransmitter dopamine. Reduced KCNA2 expression plays a role in the perception of neuropathic pain after peripheral nerve injury, but not acute pain. Plays a role in the regulation of the time spent in non-rapid eye movement (NREM) sleep.

  • Target Involvement

    Epileptic encephalopathy, early infantile, 32 (EIEE32)

  • Target Subcellular Location

    Cell membrane; Multi-pass membrane protein. Membrane. Cell projection, axon. Cell junction, synapse. Endoplasmic reticulum membrane. Cell projection, lamellipodium membrane. Cell junction, synapse, synaptosome. Cell junction, synapse, presynaptic cell membrane. Cell projection, dendrite. Cell junction, paranodal septate junction.

  • Target Protein Families

    Potassium channel family, A (Shaker) (TC 1.A.1.2) subfamily, Kv1.2/KCNA2 sub-subfamily

  • Target Tissue Specificity

    Detected in brain cortex. Detected in peroneal nerve in the juxtaparanodal regions of the node of Ranvier; expression is decreased in patients with diabetes mellitus that suffer from axonal neuropathy. Detected in paranodal and juxtanodal zones in myelina

  • Target Synonyms

    KCNA2; Potassium voltage-gated channel subfamily A member 2; NGK1; Voltage-gated K(+ channel HuKIV; Voltage-gated potassium channel HBK5; Voltage-gated potassium channel subunit Kv1.2

  • 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 delayed rectifier class, members of which allow nerve cells to efficiently repolarize following an action potential. The coding region of this gene is intronless, and the gene is clustered with genes KCNA3 and KCNA10 on chromosome 1.

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