The glucocorticoid receptor-glucocorticoid complex of the hepatic cytosol need undergo an "activation" to enable its binding to nuclei, chromatin, or stripped DNA. The conditions of this activation have been studied using native calf thymus DNA absorbed to cellulose. At low ionic strength, activation is very slow at 0 degrees, but, takes place rapidly at 25 degrees, reaching completion at 1 hour. Addition of 10 mm CaCl2 or 150 mm NaCl increases the rate of activation of the receptor at 0 degrees. Neither magnesium nor manganese ions can replace calcium with respect to enabling activation of the steroid-receptor complex to occur at low temperatures. Isofocusing studies reveal that the major component of the unactivated steroid-receptor complex has an isoelectric point of 7.1. Incubation of the steroid-receptor complex at 25 degrees for 30 min leads to its conversion to a form with an isoelectric point of 6.1 concurrent with the development of its ability to bind to DNA-cellulose. Sucrose density gradient analysis reveals that no detectable alteration in the sedimentation coefficient of the steroid-receptor complex occurs during its activation. MnCl2 (20mm) effeciently precipitates the unactivated hormone-receptor complex and to a lesser degree, precipitates the activated hormone-receptor complex.