Na+ CP type IXα (R692) Peptide 
Datasheet
COA
MSDS
SHIP
Product Name :
Na+ CP type IXα (R692) Peptide Applications :
Blocking Background :
Voltage-gated Na+ channels regulate the permeability of excitable cells to sodium ions. During the propagation of an action potential, Na+ channels allow an influx of sodium ions, which rapidly depolarize the cell. The sodium channel protein is comprised of one α subunit and two β subunits. The Na+ CP type I and Na+ CP type IIα subunits are expressed in adult brain. Na+ CP type IIIα is expressed in embryonic brain, but not in adult brain. Na+ CP type IIIβ is a 215 amino acid, single-pass type I membrane protein that modulates sodium channel gating kinetics and inactivates the channel opening more slowly than the Iβ subunit. It has an extracellular N-terminal domain, an N-terminal signal sequence, a single membrane-spanning region and a C-terminal cytoplasmic region. Alternative Name :
ETHA; hNE Na; hNE-Na; hNENa; NE NA; NENA; Neuroendocrine sodium channel; Peripheral sodium channel 1; PN1; SCN9A; SCN9A; Sodium channel protein type 9 subunit alpha; Sodium channel protein type IX subunit alpha; Sodium channel voltage gated type IX alpha; Sodium channel voltage gated type IX alpha polypeptide; Sodium channel voltage gated type IX alpha subunit; Voltage gated sodium channel alpha subunit Nav1.7; Voltage gated sodium channel subunit alpha Nav1; Voltage-gate Swiss-Prot :
Q15858 Product :
1 mg/ml in DI water. Purification&Purity :
Synthetic peptide Na+ CP type IXα (R692). (Note: the amino acid sequence is proprietary). The purity is > 98%. Storage&Stability :
Store at 4°C short term. Aliquot and store at -20°C long term. Avoid freeze-thaw cycles. Specificity :
This peptide can be used with studies using BS9164 Na+ CP type IXα (R692) pAb.
Na+ CP type IXα (R692) Peptide Applications :
Blocking Background :
Voltage-gated Na+ channels regulate the permeability of excitable cells to sodium ions. During the propagation of an action potential, Na+ channels allow an influx of sodium ions, which rapidly depolarize the cell. The sodium channel protein is comprised of one α subunit and two β subunits. The Na+ CP type I and Na+ CP type IIα subunits are expressed in adult brain. Na+ CP type IIIα is expressed in embryonic brain, but not in adult brain. Na+ CP type IIIβ is a 215 amino acid, single-pass type I membrane protein that modulates sodium channel gating kinetics and inactivates the channel opening more slowly than the Iβ subunit. It has an extracellular N-terminal domain, an N-terminal signal sequence, a single membrane-spanning region and a C-terminal cytoplasmic region. Alternative Name :
ETHA; hNE Na; hNE-Na; hNENa; NE NA; NENA; Neuroendocrine sodium channel; Peripheral sodium channel 1; PN1; SCN9A; SCN9A; Sodium channel protein type 9 subunit alpha; Sodium channel protein type IX subunit alpha; Sodium channel voltage gated type IX alpha; Sodium channel voltage gated type IX alpha polypeptide; Sodium channel voltage gated type IX alpha subunit; Voltage gated sodium channel alpha subunit Nav1.7; Voltage gated sodium channel subunit alpha Nav1; Voltage-gate Swiss-Prot :
Q15858 Product :
1 mg/ml in DI water. Purification&Purity :
Synthetic peptide Na+ CP type IXα (R692). (Note: the amino acid sequence is proprietary). The purity is > 98%. Storage&Stability :
Store at 4°C short term. Aliquot and store at -20°C long term. Avoid freeze-thaw cycles. Specificity :
This peptide can be used with studies using BS9164 Na+ CP type IXα (R692) pAb.
Blocking peptide available as BS9164PP