Neutron activation analysis of stable iodinated insulin has been performed [ 127I( n, γ) 128I]. Using a lithium-drifted germanium detector for counting the 128I gamma ray of 0·442 MeV, we have successfully analyzed less than one microgram of iodine without the necessity of pre- or post-irradiation chemistry. The theoretical lower limit for 128I using this technique appears to be 40–50 ng of iodine. Increased sensitivity was achieved by using a NaI (Tl) well detector with post-irradiation chemistry. The results indicated that with this destructive method, we should be able to measure as low as 1–2 ng of iodine. Excellent recovery of insulin by immunoassay, after neutron activation, provided evidence that the technique using freeze drying of insulin and a Ge (Li) detector did not damage the insulin molecule. We conclude that using two different detector systems after neutron activation, accurate and reliable studies could be performed with iodinated insulin and other proteins in biological functions studies.
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