Radioactive Label for the Antigen

The specific activity of proteins assayed by direct immunochemical methods or those used as standards in radioimmunoassays profoundly affects the resolution attainable by these techniques. Therefore, the nature of the radioactive label to be used in such experiments must be considered carefully. Table 8-6 lists the isotopes available for this purpose along with the number of atoms of each isotope that must be incorporated to produce an arbitrary counting rate. As can be seen here, 557 atoms of H and 261,672 atoms of C must be incorporated into every molecule of protein to yield the same number of disintegrations per minute as only one I or 11 S molecules. S-methionine is often the isotope of choice for many direct immunochemical procedures since it is relatively inexpensive to prepare at high specific activity. On the other hand, the relative ease with which radioactive iodine may be incorporated into a purified antigen makes it the isotope of choice for radioimmunoassay methods. Of the two iodine isotopes available, is most often used because of its longer half-life. This is an important consideration since it usually takes more than 1 week to prepare and test a labeled antigen prior to its experimental use. 

Isotope Number of Isotopic Atoms Incorporated per Macromolecule 

The expected specific activity of a labeled antigen may be calculated using the equation 

Example. Calculate the specific activity (/ac//ag) of a protein whose molecular weight is 250,000 and contains one molecule of iodine-125 per molecule of protein. 

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