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MagReSyn NTA (MR-NTA010)

MagReSyn NTA (10 ml)

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MagReSyn NTA (10 ml)
MagReSyn® NTA microparticles consist of nitrilotriacetic acid (NTA) residues with a strong metal-chelating property. MagReSyn® NTA is pre-chelated with nickel ions for affinity purification of histidine-tagged proteins. The product has been engineered for exceptional specificity, delivering highly pure target proteins. Since different types of His-tagged proteins may have varying affinities for a particular metal ion, we also offer a His-tagged protein purification screening kit (MagReSyn® NTA-KIT) containing MagReSyn® NTA chelated with 4 alternate divalent metal ions (Ni2+, Cu2+, Co2+, Zn2+) to identify the most suitable metal ion for optimal purification of your particular target protein. MagReSyn® NTA Copper, -Cobalt and -Zinc are currently available in 2 ml product formats.

 

MagReSyn Technology Description

New miniaturized, high throughput technologies for bioseparation, diagnostics, DNA sequencing, flow cytometry, drug discovery, proteomics and genomics are in many instances reliant on attachment of functional biological molecules to a microsphere support. The vast array of life sciences applications include: capture reagents for immunoassay (fluorescence, enzyme linked etc); surfaces for immunoprecipitation; diagnostic assays; fluorescence microscopy; flow/imaging cytometry; magnetic cell separation; molecular diagnostics; agglutination tests; nucleic acid separation and protein separation among others.

Conventional microparticle technologies use solid or porous/cracked microparticles with binding of biological molecules limited to the surface, a key factor constraining performance and the development of new applications for microparticle technologies and products. We have developed a novel (patented) microparticle technology platform, comprising a hyper-porous polymer matrix that allows penetration of biological and synthetic molecules throughout the volume of the microparticles. This offers exceptionally high surface area for binding of molecules and allows performance that is orders of magnitude greater than alternate technologies. The binding capacity serves as a major performance contributor to the number of applications and versatility for end-user applications by and further enables miniaturization, increased sensitivity and reducing the cost of R&D.