Lane 1: mouse brain tissue lysates
Lane 2: rat brain tissue lysates
Lane 3: rat cerebellum tissue lysates
Rabbit polyclonal primary
KCNAB1 Rabbit Polyclonal Antibody (ER1901-34)
Synthetic peptide within rat kcnab1 aa 10-100.
Mouse brain tissue lysates, rat brain tissue lysates, rat cerebellum tissue lysates, EA.hy926, rat testis tissue, rat brain tissue, rat kidney tissue, rat cerebellum tissue, JAR.
Store at +4C after thawing. Aliquot store at -20C. Avoid repeated freeze / thaw cycles.
1*PBS (pH7.4), 0.2% BSA, 50% Glycerol. Preservative: 0.05% Sodium Azide.
Peptide affinity purified.
44/45 kDa (Predicted band size)
hKvb3 antibody; hKvBeta3 antibody; K(+) channel subunit beta-1 antibody; KCAB1_HUMAN antibody; KCNA1B antibody; KCNAB1 antibody; Kv-beta-1 antibody; Kvb1.3 antibody; Voltage-gated potassium channel beta-1 subunit antibody; Voltage-gated potassium channel subunit beta-1 antibody
Belongs to the shaker potassium channel beta subunit family.
In brain, expression is most prominent in caudate nucleus, hippocampus and thalamus. Significant expression also detected in amygdala and subthalamic nucleus. Also expressed in both healthy and cardiomyopathic heart. Up to four times more abundant in left ventricle than left atrium.
Cell membrane, cytoplasm, membrane.
Cytoplasmic potassium channel subunit that modulates the characteristics of the channel-forming alpha-subunits. Modulates action potentials via its effect on the pore-forming alpha subunits (Probable). Promotes expression of the pore-forming alpha subunits at the cell membrane, and thereby increases channel activity (By similarity). Mediates closure of delayed rectifier potassium channels by physically obstructing the pore via its N-terminal domain and increases the speed of channel closure for other family members. Promotes the closure of KCNA1, KCNA2 and KCNA5 channels. Accelerates KCNA4 channel closure. Accelerates the closure of heteromeric channels formed by KCNA1 and KCNA4. Accelerates the closure of heteromeric channels formed by KCNA2, KCNA5 and KCNA6. Enhances KCNB1 and KCNB2 channel activity (By similarity). Binds NADPH; this is required for efficient down-regulation of potassium channel activity. Has NADPH-dependent aldoketoreductase activity. Oxidation of the bound NADPH strongly decreases N-type inactivation of potassium channel activity.