ELISA kits are commonly used to measure soluble biomarkers across a variety of research areas. ELISA kits for Human ACE2 can be quantified in various samples, including plasma, serum, supernatant.
Invitrogen ELISA kits exist in two formats: Uncoated and Coated....ELISA kits are commonly used to measure soluble biomarkers across a variety of research areas. ELISA kits for Human ACE2 can be quantified in various samples, including plasma, serum, supernatant.
Invitrogen ELISA kits exist in two formats: Uncoated and Coated. Uncoated ELISA kits...ELISA kits are commonly used to measure soluble biomarkers across a variety of research areas. ELISA kits for Human ACE2 can be quantified in various samples, including plasma, serum, supernatant.
Invitrogen ELISA kits exist in two formats: Uncoated and Coated. Uncoated ELISA kits include all the necessary reagents to coat your own plates and run your assay with maximum flexibility. Coated ELISA kits...
ELISA kits are commonly used to measure soluble biomarkers across a variety of research areas. ELISA kits for Human ACE2 can be quantified in various samples, including plasma, serum, supernatant.
Invitrogen ELISA kits exist in two formats: Uncoated and Coated. Uncoated ELISA kits include all the necessary reagents to coat your own plates and run your assay with maximum flexibility. Coated ELISA kits are ready-to-use and quality tested for sensitivity, specificity, precision and lot-to-lot consistency.
靶标信息
Angiotensin-converting enzyme 2 (ACE2) plays a central role in vascular, renal, and myocardial physiology. In contrast to its homolog ACE, ACE2 expression is restricted to heart, kidney, and testis. Recently. ACE2 has also been shown to be a functional receptor of the SARS coronavirus. The normal function of ACE2 is to convert the inactive vasoconstrictor angiotensin I (AngI) to Ang1-9 and the active form AngII to Ang1-7, unlike ACE, which converts AngI to AngII. While the role of these vasoactive peptides is not well understood, lack of ACE2 expression in ace2-/ace2- mice leads to severely reduced cardiac contractility, indicating its importance in regulating heart function.