The SLC23A3 Polyclonal Antibody (CAB14965) is a valuable tool for researchers studying SLC23A3, a member of the sodium-dependent vitamin C transporter family essential for cellular uptake of vitamin C. This polyclonal antibody, produced in rabbits, demonstrates high reactivity with human samples and is validated for use in Western blot applications. By binding specifically to the SLC23A3 protein, this antibody enables accurate detection and analysis of SLC23A3 expression in various cell types, making it a versatile option for studies in vitamin C metabolism, oxidative stress, and immune function.
SLC23A3 plays a crucial role in maintaining cellular levels of vitamin C, an essential nutrient with antioxidant properties that is involved in numerous physiological processes. Understanding the function and regulation of SLC23A3 is important for investigating the impact of vitamin C deficiency on cellular health, immune function, and disease development. The SLC23A3 Polyclonal Antibody provides researchers with a valuable tool for exploring the role of SLC23A3 in these contexts and advancing our knowledge of vitamin C biology.
Product Name:
SLC23A3 Rabbit Polyclonal Antibody
SKU:
CAB14965
Size:
20uL, 100uL
Isotype:
IgG
Host Species:
Rabbit
Reactivity:
Mouse
Immunogen:
Recombinant fusion protein containing a sequence corresponding to amino acids 394-493 of human SLC23A3 (NP_653313.3).
Predicted to enable transmembrane transporter activity. Predicted to be involved in transmembrane transport. Predicted to be integral component of membrane.
Purification Method:
Affinity purification
Gene ID:
151295
Storage Buffer:
Store at -20℃. Avoid freeze / thaw cycles.Buffer: PBS with 0.01% thimerosal,50% glycerol,pH7.3.
Western blot analysis of lysates from mouse small intestine, using SLC23A3 Rabbit pAb (CAB14965) at 1:1000 dilution.Secondary antibody: HRP Goat Anti-Rabbit IgG (H+L) (CABS014) at 1:10000 dilution.Lysates/proteins: 25μg per lane.Blocking buffer: 3% nonfat dry milk in TBST.Detection: ECL Basic Kit (AbGn00020).Exposure time: 90s.
