Porcine Transforming growth factor Beta 3 (TGFB3) ELISA Kit-Sandwich

Cat. No.EK9F47

Product TypeAnimal Immunoassay Kits

Size

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Product Overview

BioVenic Porcine TGFB3 ELISA Kit-Sandwich is designed for the quantitative determination of porcine Transforming Growth Factor Beta 3 (TGFB3) in serum, plasma, tissue homogenate, cell culture supernatant, cell lysate, and other biological fluids using a Sandwich ELISA method. For research use only.

Specifications

Assay Type ELISA-Sandwich

Specificity The assay kit is specific for Porcine TGFB3. No cross-reactivity with other relevant proteins.

Target Species Swine

Species Reactivity Swine

Detection Range 16-1000 pg/mL

Sensitivity 7.6 pg/mL

Recovery 85%-108%

Reproducibility Intra-Assay: CV < 10%; Inter-Assay: CV < 10%

Assay Time Around 180 min

Sample Requirement Serum, plasma, tissue homogenate, cell culture supernatant, cell extract, and other biological fluids; 50 μL

Target Information

Transforming growth factor beta 3 (TGF-β3) is a cytokine which regulates molecules involved in cellular adhesion and extracellular matrix (ECM) formation durng the process of palate development. Research showed that treatment with TGF-β3 can promote the formation of collagen type II within the Trochlear chondral defects of Yucatan mini-pigs.

Target/Biomarker Porcine TGFB3

Target Synonym TGF-B3; LAP; Latency-associated peptide; TGF-beta-3; Transforming Growth Factor Beta 3

Gene ID 397400

UniProt ID P15203

Shipping and Storage

This product is shipped with gel ice packs. It is recommended to store at 2-8 °C (Up to 6 months).

Documents

Datasheet

COA

To request a Certificate of Analysis, please enter the Lot No. in the search box. Note: Certificate of Analysis not available for kits.

The product is for research use only.
Not for commercial, prophylactic, diagnostic, or therapeutic applications.

References

1. Taya, Y. et al. Pathogenesis of cleft palate in TGF-beta3 knockout mice. Development. 1999, 126: 3869-3879.; Fisher, M. B. et al. Effects of mesenchymal stem cell and growth factor delivery on cartilage repair in a mini-pig model. Cartilage. 2016, 7: 174-184.