Maxi Potassium channel alpha peptide (ab5022)


  • Product nameMaxi Potassium channel alpha peptide


  • NatureSynthetic

Associated products


Our Abpromise guarantee covers the use of ab5022 in the following tested applications.

The application notes include recommended starting dilutions; optimal dilutions/concentrations should be determined by the end user.

  • Applications


  • FormLiquid
  • Additional notes

    May be used for neutralization and control experiments with the polyclonal antibody that reacts with this product and human Maxi K+ alpha, catalog ab3586. Using a solution of peptide of equal volume and concentration to the corresponding antibody will yield a large molar excess of peptide (~ 70-fold) for competitive inhibition of antibody-protein binding reactions.

  • Concentration information loading...

Preparation and Storage

  • Stability and Storage

    Shipped at 4°C. Upon delivery aliquot and store at -20°C or -80°C. Avoid repeated freeze / thaw cycles.

General Info

  • Alternative names
    • BK channel
    • BKCA alpha
    • BKCA alpha subunit
    • BKTM
    • Calcium-activated potassium channel
    • Calcium-activated potassium channel subunit alpha-1
    • Drosophila slowpoke like
    • hSlo
    • K(VCA)alpha
    • KCa1.1
    • KCNMA
    • KCNMA1
    • Maxi K channel
    • Maxi Potassium channel alpha
    • MaxiK
    • SAKCA
    • SLO
    • SLO alpha
    • Slo homolog
    • Slo-alpha
    • Slo1
    • Slowpoke homolog
    • subfamily M subunit alpha-1
    see all
  • FunctionPotassium channel activated by both membrane depolarization or increase in cytosolic Ca(2+) that mediates export of K(+). It is also activated by the concentration of cytosolic Mg(2+). Its activation dampens the excitatory events that elevate the cytosolic Ca(2+) concentration and/or depolarize the cell membrane. It therefore contributes to repolarization of the membrane potential. Plays a key role in controlling excitability in a number of systems, such as regulation of the contraction of smooth muscle, the tuning of hair cells in the cochlea, regulation of transmitter release, and innate immunity. In smooth muscles, its activation by high level of Ca(2+), caused by ryanodine receptors in the sarcoplasmic reticulum, regulates the membrane potential. In cochlea cells, its number and kinetic properties partly determine the characteristic frequency of each hair cell and thereby helps to establish a tonotopic map. Kinetics of KCNMA1 channels are determined by alternative splicing, phosphorylation status and its combination with modulating beta subunits. Highly sensitive to both iberiotoxin (IbTx) and charybdotoxin (CTX).
  • Tissue specificityWidely expressed. Except in myocytes, it is almost ubiquitously expressed.
  • Involvement in diseaseGeneralized epilepsy and paroxysmal dyskinesia
  • Sequence similaritiesBelongs to the potassium channel family. Calcium-activated (TC 1.A.1.3) subfamily. KCa1.1/KCNMA1 sub-subfamily.
    Contains 1 RCK N-terminal domain.
  • DomainThe S0 segment is essential for the modulation by the accessory beta subunits KCNMB1, KCNMB2, KCNMB3 and KCNMB4.
    The S4 segment, which is characterized by a series of positively charged amino acids at every third position, is part of the voltage-sensor.
    The pore-forming domain (also referred as P region) is imbedded into the membrane, and forms the selectivity filter of the pore. It contains the signature sequence of potassium channels that displays selectivity to potassium.
    The RCK N-terminal domain mediates the homotetramerization, thereby promoting the assembly of monomers into functional potassium channel. It includes binding sites for Ca(2+) and Mg(2+).
    The calcium bowl constitutes one of the Ca(2+) sensors and probably acts as a Ca(2+)-binding site. There are however other Ca(2+) sensors regions required for activation of the channel.
    The heme-binding motif mediates inhibition of channel activation by heme. Carbon monoxide-bound heme leads to increased channel activation.
  • Post-translational
    Phosphorylated (Probable). Phosphorylation by kinases such as PKA and/or PKG. In smooth muscles, phosphorylation affects its activity.
    Palmitoylation by ZDHHC22 and ZDHHC23 within the intracellular linker between the S0 and S1 transmembrane domains regulates localization to the plasma membrane. Depalmitoylated by LYPLA1 and LYPLAL1, leading to retard exit from the trans-Golgi network.
  • Cellular localizationCell membrane.
  • Information by UniProt

References for Maxi Potassium channel alpha peptide (ab5022)

ab5022 has not yet been referenced specifically in any publications.

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