Application of PEG In Click Chemistry
|23.7.2020||Posted by electronics51 under Advertising & Marketing|
Polyethylene glycol (PEG) is a biocompatible, synthetic, hydrophilic polyether compound that has many applications, mostly in the medical industry, but also in the chemical and industrial sectors.
The synthesis of PEG is done by polymerizing ethylene oxide, the main ingredient in antifreeze, using a ring-opening technique, which allows for PEGs of a range of molecular weights and molecular weight distributions to be constructed. This range in weights is what makes it suitable for several uses.
Click chemistry is a method for attaching a probe or substrate of interest to a specific biomolecule, a process called bioconjugation. The possibility of attaching fluorophores and other reporter molecules has made click chemistry a very powerful tool for identifying, locating, and characterizing both old and new biomolecules.
Click Chemistry has been widely used in bioconjugation, biolabeling and material sciences in pharmaceutical and biotech industry. It refers to a group of reactions that are fast, simple to use, easy to purify, versatile, regiospecific, and give high product yields.
Biochempeg is especially good at click chemistry reagents which now widely used on biomolecular probes, two-dimensional gel electrophoresis separation, modification of peptide function with triazoles and natural products, and pharmaceuticals, nanotechnology, Biomaterials, etc.
Biochempeg provides high purity Click Chemistry tools with a broad range of functional groups: Azide, Alkyne, DBCO, BCN, etc. Activated PEG products with molecular weights, branching and functional groups not listed in our website may be available by custom synthesis.
PEG Reagents for Click Chemistry
Azide Reagents enables Click Chemistry and can be used to react with amine-containing biomolecules, modifying carboxylic acid groups, and etc.
Alkyne reagents can be reacted with azide-bearing compounds or biomolecules via CuAAC reaction to yield a stable triazole linkage.
DBCO (Dibenzocyclooctyne) reagents is one of the most reactive cycloalkynes for strain promoted alkyne azide cycloaddition (SPAAC), which enables Cu-free Click Chemistry.
BCN reagents (bicyclo[6.1.0]nonyne) can react with azide-tagged molecules or biomolecules via copper-free Click Chemistry.