Biotinylation

 

Biotinylation, Biotin-labeling is commonly used for non-radioactive labeling and purification of proteins and other target molecules. Biotin labeling takes advantage of the exceptionally strong interaction between biotin (vitamin H) and either avidin or streptavidin. The affinity of biotin to avidin or streptavidin is one of the strongest known non-covalent interactions of a protein and ligand, exhibiting a dissociation constant (Kd) around 10-15. Furthermore, this interaction is resistant to high or low pH, high salt concentrations, temperature extremes, and denaturants. These properties of the biotin-avidin interaction make it useful for purifying and/or detecting proteins of interest. BPS has a number of proteins that have been biotin-labeled via chemical methods through various reaction groups as well as enzymatically using AviTagTM technology.

In addition to our biotinylated proteins, we also offer a number of reagents that can be used to meet your specific biotinylation needs. There are a number of things to consider when selecting the appropriate biotinylation reagent:

Solubility – Modifications can be made to the biotinylation reagent to increase the solubility, thereby allowing access to hydrophobic or hydrophilic regions within the target protein. In addition, these modifications also increase the solubility of the resulting biotinylated protein. The most common method used to increase solubility of the biotinylation reagent is to add a poly(ethylene glycol) (PEG) spacer arm. The solubility of the biotinylation reagent increases with the number of PEG groups that have been added. BPS offers a variety of PEGylated biotinylation-reagents to meet all of your needs.

Spacer Arm Length – The ability of biotin to bind to avidin/streptavidin is dependent on the availability of biotin.   The spacer arm length is defined as the distance between the conjugated amino acid and the biotin molecule. This length is varied by adding or removing chemical structures in between biotin and the reaction moiety. Increasing this length can increase the availability of biotin for binding to avidin/streptavidin.

Cleavable/Reversible Biotin Reagents – This refers to the ability of the biotin label to be either cleaved, or removed, from the protein or to reverse the biotin-avidin/streptavidin interaction. The former is done by adding spacer arms that include di-sulfide bonds. These disulfide bonds can easily be cleaved under denaturing conditions. The latter is accomplished using modified forms of biotin or avidin/streptavidin that exhibit a lower binding affinity.

Reactive Moiety/Enzymatic Addition – The reactive moiety within a biotinylation reagent determines the specific functional group or amino acid within a protein that will be labeled. Different reactive moieties are available to label primary amines, sulfhydryls, carboxyls, and carbonyls. Additionally, biotin can be enzymatically attached to a protein of interest by using AviTagTM technology. Here, a specific sequence, or AviTagTM, is added to the protein of interest. When this protein is co-expressed with the biotin ligase, BirA, or incubated with BirA under the appropriate conditions in vitro, biotin is site-specifically added to the AviTagTM.

BPS’ portfolio of biotinylation products includes reagents for labeling primary and secondary amines, alkyne groups, thiols, carboxyl groups, and phosphate groups with various numbers of PEG groups. This flexibility allows researchers to meet all of their biotinylation needs. 

Biotinylation Subcategories

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Catalog#SizeProduct NamePrice
27427 100 mg Biotin-PEG6-Acid
$220
27413 500 mg Biotin-PEG7-Amine
$865
27412 100 mg Biotin-PEG7-Amine
$350
27447 100 mg Biotin-PFP ester
$145
27448 1 g Biotin-PFP ester
$370
70031 100 µg BirA, GST-tag
$475
70030 100 µg BirA, His-FLAG-tags (E. coli-derived)
$475
70032 50 µg BirA, His-FLAG-tags (Sf9-derived)
$475
27462 10 vials BirA-transformed Competent E. coli cells
$415
80413 50 µg CBL-B (Y363F), His-tag, Biotin-labeled (Human)
$370
80412 50 µg CBL-B, His-tag, Biotin-labeled (Human)
$370
77002 50 μg CD111, Fc-Fusion, Avi-Tag, Biotin-Labeled HiP™
$420
72231 50 μg CD112, Fc-Fusion, Avi-Tag, Biotin-labeled (Human)
$420
71234 50 μg CD112, His-tag, Biotin-labeled (Human) HiP™
$420
100068 50 µg CD123, Fc-Fusion (IgG1) Avi-Tag, Biotin-Labeled
$420
71171 50 µg CD137 (4-1BB), Fc Fusion, Biotin-labeled (Human) HiP™
$405
71255 50 µg CD137, Fc fusion (mIgG2a), Biotin-labeled (Mouse) HiP™
$420
72307 50 μg CD150, Fc Fusion (IgG1), Biotin Labeled (Human)
$420
72304 100 μg CD150, Fc Fusion, Avi-Tag (Human)
$320
71168 50 µg CD155, His-tag, Biotin-labeled (Mouse) HiP™
$420
71135 50 µg CD160, His-tag, Biotin-labeled (Human) HiP™
$420
79472 100 μg CD19, Fc-Fusion (IgG1), Avi-Tag
$310
79475 50 μg CD19, Fc-Fusion (IgG1), Avi-Tag, Biotin-Labeled
$420
71264 100 μg CD2, Fc fusion, Avi-Tag, (Human) HiP™
$320
71270 50 µg CD2, Fc fusion, Biotin-labeled (Human) HiP™
$420

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