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Manufactured by BioVendor

Human Soluble Mannose Receptor ELISA

  • Regulatory status:RUO
  • Type:Sandwich ELISA, Biotin-labelled antibody
  • Other names:sMR, CD206, Cluster of Differentiation 206
  • Species:Human
Cat. No. Size Price


RHK381-02R 2x96 wells (1 kit) $1317,66
PubMed Product Details
Technical Data

Type

Sandwich ELISA, Biotin-labelled antibody

Applications

Plasma

Sample Requirements

10 µl/well

Storage/Expiration

Store the complete kit at 2–8°C. Under these conditions, the kit is stable until the expiration date (see label on the box).

Calibration Range

3.1-200 ng/ml

Limit of Detection

3.1 ng

Intra-assay (Within-Run)

3.6 %

Summary

Features

The total assay time is 3.5 hours

The kit measures soluble Mannose receptor (sMR) in human Plasma
Assay format is 96 wells

Components of the kit are provided ready to use or concentrated

Research topic

Cell surface proteins (sCD), Immunology, Pulmonary diseases, Sepsis

Summary

Recent studies have indicated increased concentrations of the soluble form of Mannose Receptor (MR) in plasma of patients with infection diseases such as sepsis, pneumonia and acute hepatitis. MR’s are especially expressed on cell membranes of macrophages and function as Pattern Recognition Receptors (PRR). Exact function and (in-vivo) shedding-mechanism of the soluble form, soluble Mannose Receptor (sMR) is still unknown. Increased sMR’s in plasma can be due to some pathogens in the body which stimulate the (in-vivo) shedding mechanism of the MR’s. sMR’s which are bound to the mannose residues of these pathogens, prevent it from being recognized and phagocyted by MR’s. As a result, the innate immunity is slowly suppressed and a vicious circle (which increases the sMR’s in plasma) is created. The body does this probably to partly slow the innate immunity to prevent going out of balance. When the disease being treated, the pathogens which are present in the body of the patient, will be less and less . In the body becoming less cleaved mannose receptors and the sMR in plasma will gradually decrease. The measurement of sMR’s in plasma may be important for the diagnoses/monitoring of diseases such as sepsis, pneumonia and acute hepatitis.

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