Ultra Sensitive Rat Insulin ELISA (10 Kit Pack)
Product Specifications
Catalog # | 90062 |
Sample Size | 5 µL |
Sample Types | Serum, plasma, cell culture, or fluid |
Tests | 10 x 96 wells |
Reagents | In liquid form (except standard) |
Sensitivity | 0.05 ng/mL |
Assay Range | Low Range Assay: 0.1 - 6.4 ng/mL Wide Range Assay: 0.1 - 12.8 ng/mL High Range Assay: 1 - 64 ng/mL |
Precision | Intra-assay precision CV ≤ 10.0% Inter-assay precision CV ≤ 10.0% |
Storage | 2-8°C |
Regulatory | Research Use Only |
Distribution | Worldwide |
Assay Summary |
Assay and protocol summary |
Additional Info
The Ultra Sensitive Rat Insulin ELISA (10 Kit Pack) is an economical option for high-volume users. The 10 kit pack contains 10 individually packaged Ultra Sensitive Rat Insulin ELISA kits.
In addition to significant cost savings, the 10-kit pack has the advantage of ensuring consistent quality by providing individually packaged kits (as opposed to providing bulk reagents), ensuring reagents remain sealed until used. This format also is more convenient, as users don't have to measure out reagents for each plate. The kits are identical to the single kits (90060) with the exception of their external labeling.
All our Ultra Sensitive Rat Insulin ELISA kits have a shelf-life of 1 year from their manufacture, require low sample volumes, have a wide dynamic range, and offer phenomenal sensitivity. For complete product details, including references and standard curves, please visit the product page for the Ultra Senstive Rat Insulin ELISA kit.
References
de Castro Barbosa, Thais, et al. "High-fat diet reprograms the epigenome of rat spermatozoa and transgenerationally affects metabolism of the offspring." Molecular Metabolism 2016; 5: 184-197. Read more |
Schlein, Christian, et al. "FGF21 lowers plasma triglycerides by accelerating lipoprotein catabolism in white and brown adipose tissues." Cell Metabolism 2016; 23: 441-453. Read more |
Lipina, Christopher, et al. "NEU3 sialidase as a marker of insulin sensitivity: Regulation by fatty acids." Cellular Signalling 2015; 27: 1742-1750. Read more |
Reynolds, Clare M., et al. "Maternal high‐fat diet‐induced programing of gut taste receptor and inflammatory gene expression in rat offspring is ameliorated by CLA supplementation." Physiological Reports 2015; 10: e12588. Read more |