Photoaffinity label probes of iodothyronines can interact with nuclear receptors in intact cells and in solubilized receptor preparations. These probes have certain advantages over a chemical affinity label in analyzing receptor structure. First, a photoaffinity label probe covalently cross-links only after photoactivation. Therefore, it is possible to demonstrate with appropriate competitive inhibition studies that the photoaffinity label probe associates with the receptor in question. Secondly, since cross-linking only occurs after photolysis, it is possible to adjust the concentration of the photoaffinity label to maximize association with "specific" binding sites relative to "non-specific" associations prior to covalent linkage by photoactivation. The different [125I]iodothyronine-PAL analogues may be useful as probes of the thyroid hormone receptor binding domain since PAL compounds with different affinities for receptor may photocouple to different receptor residues within or proximate to the hormone binding region. These probes may also be useful as an adjunct to receptor purification and in probing the organization of the receptor in chromatin. Lastly, they may provide insights into possible alterations of receptor structure in patients with partial end organ resistance to thyroid hormone (Refetoff et al., 1967; Eil et al., 1982).