Sub Cat | Isotype | |
---|---|---|
V3S-1124-YC2097 | IgG | |
V3S-1022-YC2636 | IgG1 |
Description | This product is a monoclonal antibody derived from mouse, which can specifically recognize SCN9A. The antibody is expressed with mammalian cell transient expression system, serum-free and purified by affinity chromatography. The purity and integrity are tested via SDS-PAGE and SEC-HPLC analysis. Given an antigen, additional QC measures are also desired such as affinity testing and binding validation. Specifically, the antibody is provided in multiple formats for in vivo and in vitro assays. The Invivo version features greater than 95% purity, ultra-low endotoxin levels (<1 EU/mg or 0.1 EU/mg), and is preservative, stabilizer, and carrier protein-free. |
Clonality | Monoclonal |
Host Species | Mouse |
Target Species | Human |
Isotype | IgG |
Expression Species | HEK293F or CHO |
Conjugation | None |
Purity | >95%, determined by SDS-PAGE and/or SEC-HPLC |
Endotoxin | <1 EU/mg, determined by LAL method |
Purification | Protein A affinity purified |
Sterility | 0.2 μM filtered |
Formulation | PBS, pH 7.4 |
Preservation | No preservatives |
Stabilizer | No stabilizers |
Storage | Store at 4⁰C within a week. For longer storage, aliquot and store at -20⁰C. |
Application | ELISA |
Application Notes | The antibody is recommended for detection of SCN9A by ELISA assay. |
ELISA | Enzyme-Linked Immunosorbent Assay Protocol |
WB | Western Blot Protocol |
FC | Flow Cytometry Protocol |
Target | SCN9A |
Alternative Name | SCN9A; sodium channel, voltage gated, type IX alpha subunit; PN1; ETHA; NENA; SFNP; FEB3B; NE-NA; GEFSP7; HSAN2D; Nav1.7; sodium channel protein type 9 subunit alpha; hNE-Na; peripheral sodium channel 1; neuroendocrine sodium channel; sodium channel protein type IX subunit alpha; voltage-gated sodium channel alpha subunit Nav1.7; voltage-gated sodium channel subunit alpha Nav1.7; sodium channel, voltage-gated, type IX, alpha subunit; sodium channel, voltage-gated, type IX, alpha polypeptide |
Gene ID | 6335 |
UniProt | Q15858 |
Research Area | Neuroscience; Signal Pathway |