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Experimental
1. Pipette 1 cm3 of each of the antigen solutions into 5 gamma vials
2. Pipette 1 cm
3 of assay sample into 6
th vial
3. Locate the 8 cm
3 of
125I (aq) which is in a labelled glass vial
4. Use the 1 mL autopipette to add 1 cm
3 of the
125I-antigen to each of the 6 vials
5. Add 1 mL of
125I-antigen to 7th vial and label it
A – to measure total activity
6. Add 1 cm
3 of buffer solution to 1
st 6 vials and 2 cm
3 to the 7
th vial
(A)
7. Leave vial
A to one side
8. Add 1 cm
3 of antibody solution to each of the other 6 vials
9. Count sample
A on the Triathler (see operating instructions below) for 1 min to determine background 35
10. Centrifuge the antigen-antibody complex in the 6 vials at 5000 rpm for 5 min – place 2 red adapters in each of the 6 holes marked with red crosses and place your vials in these wells
11. Pipette 2 cm
3 of supernatant from each vial into a 2
nd set of clean gamma vials and label carefully
12. Carefully remove rest of supernatant from each vial and dispose of in the plastic beaker labelled
125I waste
13. Use 2 cm
3 of buffer solution to wash each precipitate – dispose of the washings in the plastic beaker
14. Re-centrifuge the precipitate as above and discard its supernatant into waste beaker
15. Count the 6 precipitate samples and all 6 supernatant samples in the Triathler
Write-Up
1. For each sample calculate the fraction of the 125I activity found in the antibody-antigen complex, and the fraction found in the solution, i.e. as a free antigen, by dividing your counts by ‘A’. Remember that only half the supernatant liquid was counted in each case.
2. Calculate the bound/free antigen ratio for each sample.
3. Using the 5 standard antigen concentrations provided plot graphs, using Excel of:
4. The bound activity fractions vs. the standard antigen concentration;
5. The free activity fraction vs. the standard antigen concentration;
6. The bound/free ratio vs. the standard antigen concentration.
7. Fit the points with a non-linear trend line. Use the type that fits best. Use the Excel function to obtain the formula for the trendline, and the R2 value.
8. Determine the antigen concentration in the sample provided for assay from each calibration graph.
9. Calculate a mean value for the assay, and a relative standard deviation from the results from the 3 graphs.