Broadly, precipitation reaction are of three types:
- Reaction in agar.
- Precipitation in solution.
- Precipitation reaction in agar with an electric field.
Precipitation in agar: It is also termed as immunodiffusion test. Reactants are added to gel and antigen–antibody combination occurs by means of diffusion. Rate of diffusion is affected by size of the particles, , gel viscosity, amount of hydration, temperature and interactions between matrix and reactants. An agar concentration of (0.3–1.5) % allows efficient diffusion of most reactants.
- Visible in form of distinct band of precipitation.
- When only antigen or antibody diffuse with corresponding antibody or antigen being incorporated on agar gel, it is called single diffusion.
- When both antigen and antibody diffuse in agar gel, it is double diffusion.
- Oudin immunodiffusion: It is single diffusion in one direction (single diffusion of antigen in agar in one dimension). Antibody is incorporated in agar gel in test tube & antigen is layered over it. Antigen diffuses and form line of precipitate.
- Oakley Fulthorpe immunodiffusion: This is double diffusion in one dimension. Antibody is incorporated in agar gel in a test tube, above which a layer of plain agar is placed. Antigen is then layered on top of this plain agar. During course of time, antigen and antibody move toward each other through intervening layer of plain agar and forms band of precipitate.
- Radial immunodiffusion: Single diffusion in two dimensions. Antiserum solution containing antibody is incorporated in agar gel. Antigen is then applied to a wells cut into the gel. When antibody present in gel reacts with antigen, which diffuses out of well, a ring of precipitation is formed around the wells. The diameter of the precipitin ring formed is directly proportional to the concentration of antigen.
- Ouchterlony immunodiffusion: Double diffusion in two dimensions. Both antigen and antibody diffuse independently through agar gel in two dimensions, horizontally and vertically.
- Wells are cut in agar gel prepared in slide.
- Antibody is placed in central well and antigen is placed on wells surrounding the central well
- Antigen and antibody diffuse and precipitation band is formed where they meet in optimal conditions.
Precipitation in solution: Interaction of antibodies and antigens to from precipitate in a solution.
Ring test and flocculation test are examples of precipitation in solution. It is also called simple precipitation.
- Ring test: In ring test a clear solution of test antigen is layered slowly over clear solution of antiserum in narrow test tube. After period of incubation, precipitation between antigen and antibodies in antiserum solution is marked by the appearance of a white ring at the junction of two liquid layers.
C-reactive protein (CRP), Lancefield grouping of β-haemolytic streptococci, Ascoli’s thermoprecipitin test are the examples of the ring test.
- Flocculation test: Flocculation test may be performed in a slide or tube. In slide test, a drop of antigen solution is added to drop of serum solution in slide and mixed well. Visible clumps appear in positive cases. VDRL test for detection of reaginic antibodies in syphilis is an example of a slide flocculation test.
Tube flocculation test is used for standardization of toxins and toxoids, Kahn test for syphilis is an example of tube flocculation test.
Precipitation in agar with an electric field: Also called immunoelectrophoresis as it combines electrophoresis with immunodiffusion.
- Rocket immunoelectrophoresis: Various concentrations of antigens are loaded side by side in small circular wells along edge of agarose gel incorporated with specific antibody. On electrophoresis antigens begins to migrate towards anode and interact with antibody to form complex.
As electrophoresis continues more antigen moves toward anode and at equivalence point antigen-antibody complex precipitates in form of rocket. Height of rocket is proportional to amount of antigen loaded.
- Counter immunoelectrophoresis: Antigen and antibody are placed in separate wells (opposite directions) cut in agar gel as test relies in movement of antigen and antibody in opposite direction. On electrophoresis, antigen (Negatively charged) moves towards positive pole and antibody (Positively charged) moves towards negative pole. Line of precipitation appears at point where they two meet.
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