A313561-96
ANTIA313561-96EA
525
EUR
InStock
ANTIA313561-96
Human HLA-C ELISA Kit
Tests
Tests ELISA
Human HLA-C ELISA kit is a 90 minutes sandwich Enzyme-Linked Immunosorbent Assay (sELISA) designed for the in vitro quantitative determination of human HLA-C in serum, plasma, and other biological fluids.
- Higher throughput: Get results in just 90 minutess, with a single wash step
- Detection range: 5 to 80 ng/ml
- Sensitivity: 0,2 ng/ml
- Sample type: Serum, plasma or other biological fluids
- Assay precision: Intra assay: CV <8%, Inter assay: CV <10%
Human HLA-C ELISA kit (A313561) employs the sandwich enzyme immunoassay technique for the quantitative measurement of human HLA-C in serum, plasma or other biological fluids. An antibody specific for HLA-C has been pre-coated onto a 96-well microtiter plate. The standards and test samples are added into the wells and the HLA-C present in each sample is bound to the wells by the immobilised antibody. Biotinylated anti-HLA-C antibody, which also binds the HLA-C present in each sample, and Streptavidin-HRP, which binds the Biotinylated anti-HLA-C antibody, are added and the microtiter plate is incubated. Following incubation, unbound Biotinylated anti-HLA-C antibody and unbound Streptavidin-HRP are removed by washing, and two substrate solutions are added to the wells. Colour develops in proportion to the amount of HLA-C captured in each well. The colour development is stopped by addition of stop solution which changes the colour from blue to yellow and the intensity of the colour is then measured. The concentration of HLA-C in the samples can then be calculated by reading the O.D. absorbance at 450 nm in a microplate reader and referring to the standard curve.
Informations de commande: This is a ready to use ELISA kit that contains: Pre-coated 96 well microplate, standard solution, standard diluent, biotinylated detection antibody, steptavidin-HRP, wash buffer (25X), substrate solution A, substrate solution B, stop solution, plate sealers, foil pouch, and protocol manual.