Anti-Parvalbumin Antibody (L114/81)
Our Anti-Parvalbumin mouse monoclonal primary antibody from NeuroMab is produced in-house from hybridoma clone L114/81. It detects mouse and rat Parvalbumin, and is purified by Protein A chromatography. It is great for use in AT, IHC, ICC, WB.
SKU: 75-479
Product Details
Parvalbumin alpha
Parvalbumin (PA) is a classical small, mostly cytosolic Ca2+-binding protein of the EF-hand superfamily expressed in vertebrates in a tissue- and cell-specific manner, serving as a magnesium/ calcium buffer (Permyakov EA et al., 2017). Parvalbumin (PV)-expressing interneurons are a class of inhibitory neurons that fire rapid barrages of action potentials, and are accordingly named “fast-spiking” interneurons (Trachtenberg J. 2015).
Purified
1 mg/mL
Monoclonal
L114/81
IgG1
AT, IHC, WB
Mouse
Pvalb Pva
20 kDa
Fusion protein amino acids 1-110 (full-length) of rat Parvalbumin (also known as Parvalbumin alpha, Pvalb and Pva, accession number P02625); Mouse: 95% identity (104/110 amino acids identical); Human: 92% identity (101/110 amino acids identical); ~50% identity with Oncomodulin
Mouse, Rat
AB_2728742
Store at ≤ -20 C for long term storage. For short term storage, store at 2-8 C. For maximum recovery of product, centrifuge the vial prior to removing the cap.
Liquid
10mM Tris, 50mM Sodium Chloride, 0.065 % Sodium Azide pH 7.125
Unconjugated
Each new lot of this antibody is tested to confirm that it recognizes a single immunoreactive band of expected molecular weight when used to probe brain lysate.
These antibodies are to be used as research laboratory reagents and are not for use as diagnostic or therapeutic reagents in humans.
United States
24 months from opening
Parvalbumin alpha
UniProt (Human): Q9H598
UniProt (Immunogen Species): O35633
UniProt (Immunogen Species): O35633
Product Specific References for Applications and Species
- Immunohistochemistry: Mouse
Immunohistochemistry: Mouse | ||
PMID | Dilution | Publication |
37833406 | not listed | Ma, D, et al. 2023. A cytoskeleton-membrane interaction conserved in fast-spiking neurons controls movement, emotion, and memory. Molecular psychiatry, . |