What is the principle behind the RIA (Radioimmunoassay) method?
Radioimmunoassay (RIA) is a laboratory technique used to measure the concentration of specific molecules, such as hormones, antibodies, or antigens, in a sample. The principle behind RIA is based on the competitive binding of radiolabeled and unlabeled molecules to a specific antibody.
Here’s a step-by-step explanation:
1. Radiolabeling: A known quantity of the molecule of interest (e.g., hormone) is labeled with a radioactive isotope (e.g., iodine-125).
2. Antibody preparation: An antibody specific to the molecule of interest is prepared.
3. Sample preparation: The sample containing the unknown concentration of the molecule is prepared.
4. Incubation: The radiolabeled molecule, antibody, and sample are mixed and incubated together.
5. Competition: The radiolabeled and unlabeled molecules compete for binding to the antibody.
6. Separation: The antibody-bound and free molecules are separated.
7. Measurement: The radioactivity of the bound or free molecules is measured using a gamma counter.
8. Calculation: The concentration of the molecule in the sample is calculated based on the radioactivity measurements and the known concentration of the radiolabeled molecule.
RIA is highly sensitive and specific, allowing for precise measurements