Biotinylation

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Biotin NHS lysine Reaction
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Biotin Maleimide Cysteine Reaction

Biotinylation is the process of covalently attaching biotin, a vitamin (specifically, Vitamin B7), to proteins, nucleic acids, and other molecules. Biotinylation is a widely used technique in molecular biology and biochemistry for various purposes, including affinity purification, detection, and localization of proteins.

Overview[edit | edit source]

Biotin is a small molecule that binds strongly to avidin, streptavidin, and neutravidin proteins. This high-affinity interaction (with a dissociation constant, Kd, in the order of 10^-15 M for the biotin-streptavidin complex) is exploited in biotinylation techniques to isolate or detect biotinylated molecules. The process can be performed in vitro on purified proteins, in vivo, or on cell surfaces.

Methods of Biotinylation[edit | edit source]

There are several methods for biotinylation, each suitable for different applications and types of molecules to be biotinylated:

Chemical Biotinylation[edit | edit source]

Chemical biotinylation involves the use of biotin reagents that react with specific amino acid side chains or other functional groups on the target molecule. The most common targets for chemical biotinylation are lysine residues and the N-terminus of proteins, which can be modified with biotin using NHS (N-hydroxysuccinimide) ester chemistry.

Enzymatic Biotinylation[edit | edit source]

Enzymatic biotinylation utilizes enzymes, such as biotin ligase, to attach biotin to a specific lysine residue within a consensus sequence in the target protein. This method offers site-specific biotinylation and is often used when precise control over the modification site is required.

Photobiotinylation[edit | edit source]

Photobiotinylation is a non-invasive method that uses light to activate a biotin compound, which then covalently attaches to the target molecule. This method is useful for labeling sensitive molecules that might be denatured or lose activity through chemical or enzymatic methods.

Applications[edit | edit source]

Biotinylation has a wide range of applications in research and diagnostics:

  • Affinity Purification: Biotinylated molecules can be easily isolated from a mixture using avidin or streptavidin-coated beads or columns.
  • Western Blotting: Biotinylated antibodies are used as primary or secondary antibodies in Western blot assays for the detection of specific proteins.
  • Immunohistochemistry: In immunohistochemistry, biotinylated antibodies are used to detect proteins within tissue sections.
  • Flow Cytometry: Biotinylated antibodies can be used in flow cytometry to label and detect specific cell populations.
  • Fluorescence in situ hybridization (FISH): Biotinylated nucleic acid probes are used in FISH to detect specific DNA or RNA sequences within cells or tissues.

Considerations[edit | edit source]

When designing a biotinylation experiment, several factors must be considered, including the choice of biotinylation method, the impact of biotinylation on the biological activity of the molecule, and the specific application for which the biotinylated molecule is intended.

Conclusion[edit | edit source]

Biotinylation is a versatile and powerful tool in the molecular biology and biochemistry toolkit, enabling researchers to study and manipulate molecules with high specificity and sensitivity. Its applications span from basic research to diagnostic assays, highlighting its importance in the life sciences.

Biotinylation Resources
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Contributors: Prab R. Tumpati, MD