Indirect ELISA Protocol

From the sample to the reading, Indirect ELISA Protocol

Buffer Preparation

1. Bicarbonate/carbonate coating buffer (100 mM)

Antigen or antibody should be diluted in coating buffer to immobilize them to the wells:

  • 3.03 g Na2CO3
  • 6.0 g NaHCO3
  • 1000 ml distilled water,
  • pH 9.6

2. PBS:

  • 1.16 g Na2HPO4
  • 0.1 g KCl
  • 0.1 g K3PO4
  • 4.0 g NaCl (500 ml distilled water)
  • pH 7.4

3. Blocking solution:

  • Commonly used blocking agents are 1% BSA , serum, non-fat dry milk, casein, gelatin in PBS.

4. Wash solution:

  • Usually PBS or Tris -buffered saline (pH 7.4) with detergent such as 0.05% (v/v) Tween20 (TBST).

5. Antibody dilution buffer:

  • Primary and secondary antibody should be diluted in 1x blocking solution to reduce non-specific binding.

Indirect ELISA Protocol

1. Dilute antigen to a final concentration of 1-20 μg/ml using PBS or Bicarbonate/carbonate coating buffer. Coat the wells of a PVC microtiter plate with the antigen by pipeting 50μl of the antigen dilution in the top wells of the plate. Dilute down the plate as required. Seal the plate and incubate overnight at 4°C or 2 h at room temperature.

2. Wash plate 3 times with PBS.

3. Block the remaining protein-binding sites in the coated wells by adding 200 μl blocking buffer, 5% non fat dry milk/PBS, per well. Alternative blocking reagents include BlockACE or BSA.

4. Cover the plate with an adhesive plastic and incubate for at least 2 h at room temperature or, if more convenient, overnight at 4°C.

5. Wash the plate 3 times with PBS.

6. Add 100 μl of diluted primary antibody to each well.

7. Cover the plate with an adhesive plastic and incubate for 2 h at room temperature.

8. Wash the plate 4 times with PBS.

9. Add 100 μl of conjugated secondary antibody, diluted at the optimal concentration (according to the manufacturer) in blocking buffer immediately before use.

10. Cover the plate with an adhesive plastic and incubate for 1-2 h at room temperature.

11. Wash the plate 5 times with PBS.

12. Dispense 100 μl (or 50 μl) of the substrate solution per well with a multichannel pipet or a multipipet. 13. After sufficient color development (if it is necessary) add 50-100μl of stop solution to the wells. 14. Record the absorbance at 450 nm on a plate reader within 30 minutes of stopping the reaction.