QuickDetect™ IL-13 (Human) ELISA Kit

(No reviews yet) Write a Review
SKU:
26-K4429
Availability:
Usually Shipped in 5 Working Days
Size:
100 Assays
Storage Conditions:
4°C
Shipping Conditions:
Gel Pack
Shelf life:
6 months
€647.00
Frequently bought together:

Description

IL-13 is a immunoregulatory protein produced by activated T lymphocytes. The biological activities of IL-13 include the stimulation of B cell proliferation and immunoglobulin production. BioVision’s QuickDetect™ IL-13 ELISA kit is a sandwich ELISA assay for measuring the quantity of human IL-13 in serum, plasma and cell culture and other biological fluid. The entire process can be performed within 90 minutes with fewer incubation and wash steps respectively, resulting less errors and more consistent results.

Alternate Name: N/A

Tag Line: A rapid sandwich ELISA kit for the quantitative measurement of CD8 in human serum, plasma, cell culture supernatnat and other biological fluids

Summary: • Detection method- Absorbance (450 nm) • Species reactivity- Human • Application- quantitative measurement of IL-13 in human serum, plasma, cell culture supernatant, and other biological fluid.

Detection Method: Absorbance (450 nm)

Sample Type: Human serum, plasma, cell culture supernatant, tissue homogenate and other biological fluids.

Species Reactivity: Human

Applications: This ELISA kit is used for quantitative measurement of IL-13 in human serum, plasma, cell culture supernatant and other biological fluids.

Features & Benefits: Easy, convenient and time-saving method to measure the level of IL-13 in human serum, plasma, culture supernatants and other biological fluids. The entire assay can be performed within 90 minutes with with fewer incubation and wash step respectively, resulting in less errors and more consistent results. Detection Range: 1 – 70 pg/ml Sensitivity: < 0.1 pg/ml Assay Precision: Intra-Assay: CV < 10%; Inter-Assay: CV < 12% (CV (%) = SD/mean X 100) Cross Reactivity: No significant cross-reactivity or interference between this analyte and its analogues was observed.

View AllClose