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    Kv1.1 Polyclonal Antibody, ALEXA FLUOR® 647 Conjugated

    Catalog # bs-11730R-A647
    Product Name Kv1.1 Polyclonal Antibody, ALEXA FLUOR® 647 Conjugated
    Applications IF(IHC-P)
    Reactivity Human, Mouse, Rat
    Conjugation ALEXA FLUOR® 647
    Host Rabbit
    Source KLH conjugated synthetic peptide derived from human Kv1.1
    Clonality Polyclonal
    Isotype IgG
    Concentration 1ug/ul
    Purification Purified by Protein A.
    Storage Aqueous buffered solution containing 1% BSA, 50% glycerol and 0.09% sodium azide. Store at 4°C for 12 months.
    Synonyms Kv1.1 potassium channel; AEMK; EA1; Episodic ataxia with myokymia; HBK1; HUK1; Kca1 1; Kcna1; KCNA1_HUMAN; Kcpvd; KV1.1; MBK1; mceph; MGC124402; MGC126782; MGC138385; MK1; Potassium channel protein 1; Potassium voltage gated channel shaker related subfamily member 1; Potassium voltage gated channel subfamily A member 1; Potassium voltage-gated channel subfamily A member 1; RBK1; Shak; Shaker related subfamily member 1; Voltage gated potassium channel subunit Kv1.1; Voltage-gated K+ channel HuKI; Voltage-gated potassium channel HBK1; Voltage-gated potassium channel subunit Kv1.1.
    Background Voltage-gated K+ channels in the plasma membrane control the repolarization and the frequency of action potentials in neurons, muscles, and other excitable cells. The KV gene family encodes more than 30 genes that comprise the subunits of the K+ channels, and they vary in their gating and permeation properties, subcellular distribution, and expression patterns. Functional KV channels assemble as tetramers consisting of pore-forming alpha-subunits (KV alpha), which include the KV1, KV2, KV3, and KV4 proteins, and accessory or KV beta subunits that modify the gating properties of the coexpressed KV alpha subunits. Differences exist in the patterns of trafficking, biosynthetic processing and surface expression of the major KV1 subunits (KV1.1, KV1.2, KV1.4, KV1.5 and KV1.6) expressed in rat and human brain, suggesting that the individual protein subunits are highly regulated to control for the assembly and formation of functional neuronal channels.