Pierce™ EZ-Link™ Amine Reactive Biotinylation Reagents, Thermo Scientific

Supplier: Thermo Fisher Scientific
Pierce
21362 21442 21343 21441 21362 21313 21336 21343 21363 21336 21313 21312 21330 21363 20217 21442 20217 21312 21441 21330
PI21442EA 547.29 USD
PI21442 PI21343 PI21441 PI21363 PI21330 PI21336 PI21313 PI21312 CAPI21362 CAPI21441 CAPI21363 CAPI21330 PI21362 CAPI21343 CAPI21442 CAPI21313 CAPI21312 CAPI21336 CAPI20217 PI20217
Pierce™ EZ-Link™ Amine Reactive Biotinylation Reagents, Thermo Scientific
Protein Linking and Labeling Systems
The amine group is the most common target for modifying protein molecules because it is abundant in the majority of proteins either due to the presence of lysine bearing amino side chain functionality or the N-terminal-amine. Amine-reactive biotinylation reagents can be divided into two groups based on water solubility: NHS-esters and sulfo-NHS-esters.

NHS-esters of biotin are water-insoluble and membrane-permeable because they do not possess a charged group

Sulfo-NHS-esters are water soluble and useful for applications that cannot tolerate organic solvents. Sulfo-NHS-esters of biotin are recommended for use as cell surface biotinylation reagents. Because of the charged sulfonate group, these compounds do not penetrate the plasma membrane, thus sulfo-NHS-esters biotinylation is restricted to the cell surface.

PEGylated esters transfer water solubility to the biotinylated molecule, thus reducing aggregation of labeled proteins stored in solution. The PEG spacer arm also gives the reagent a long and flexible connection to minimize steric hindrance for binding to avidin molecules.

They may be used for biotinylating internal as well as external cellular components. Since NHS-esters of biotin are water-insoluble, for reactions in aqueous solution they must first be dissolved in an organic solvent, such as DMSO and DMF.
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