Affinity chromatography
Affinity chromatography is a method of separating biochemical mixtures based on a highly specific interaction between antigen and antibody, enzyme and substrate, or receptor and ligand. This technique is a type of chromatography that relies on the biological interactions between molecules.
Principle[edit | edit source]
The principle of affinity chromatography involves the use of a stationary phase that contains a ligand with a specific affinity for the target molecule. When a mixture is passed through the column, only the target molecule binds to the ligand, while other components are washed away. The target molecule can then be eluted by changing the conditions, such as pH or ionic strength, to disrupt the interaction.
Applications[edit | edit source]
Affinity chromatography is widely used in biochemistry, molecular biology, and biotechnology for the purification of proteins, nucleic acids, and other biomolecules. It is particularly useful for:
- Protein purification
- Enzyme purification
- Antibody purification
- Receptor-ligand studies
- Drug development
Types of Affinity Chromatography[edit | edit source]
There are several types of affinity chromatography, each designed for specific applications:
- Immunoaffinity chromatography: Uses antibodies as the ligand to purify antigens.
- Metal-chelate affinity chromatography: Utilizes metal ions to purify proteins with histidine tags.
- Lectin affinity chromatography: Employs lectins to purify glycoproteins.
- Dye-ligand affinity chromatography: Uses dye molecules to purify enzymes and other proteins.
Procedure[edit | edit source]
The general procedure for affinity chromatography involves the following steps: 1. Preparation of the column: The stationary phase is prepared by attaching the ligand to a solid support, such as agarose or sepharose beads. 2. Loading the sample: The mixture containing the target molecule is applied to the column. 3. Washing: Unbound components are washed away using a buffer. 4. Elution: The target molecule is eluted by changing the conditions to disrupt the interaction with the ligand. 5. Analysis: The eluted fractions are collected and analyzed to confirm the presence and purity of the target molecule.
Advantages and Disadvantages[edit | edit source]
Advantages[edit | edit source]
- High specificity and selectivity for the target molecule.
- High purity of the isolated product.
- Can be used for both analytical and preparative purposes.
Disadvantages[edit | edit source]
- The ligand can be expensive and may degrade over time.
- The binding capacity of the column may be limited.
- Requires optimization of conditions for each specific application.
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Categories[edit | edit source]
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Contributors: Prab R. Tumpati, MD