Total-body irradiation of rats with doses ranging from an LD10/30 to an LD100/30 induced a dose-dependent increase in the concentration of serum protein associated with the acute response to the irradiation. However, this increase was reached at a later time and was not as pronounced as described previously during the typical acute phase of the response found experimentally (A. Koj, in Structure and Function of Plasma Proteins, Vol. 1, pp. 73-131, Plenum Press, London, 1974). The greatest increase in the serum concentrations of acute-phase proteins was found from the third to the seventh days postirradiation. At these times, the serum concentrations of alpha 2-macroglobulin, haptoglobin, fibrinogen and cysteine protease inhibitor were raised from two- to fivefold, whereas alpha 1-acid glycoprotein was increased sixfold. Incorporation of [35S]methionine into total serum and acute-phase proteins indicated that the increase in the concentration of the acute-phase proteins was preceded by their de novo synthesis in the liver. The results that were obtained by dot-blot analysis showed that the basic course of change in the relative mRNA concentrations in the liver for the acute-phase proteins examined correlated with the changes in their protein concentrations in the serum; only the relative increase in the concentration of alpha 1-acid glycoprotein mRNA was significantly lower than the increase in proteins in the serum, suggesting that a fraction of the serum alpha 1-acid glycoprotein had an extrahepatic origin. On the basis of these results we concluded that total-body irradiation increased the expression of acute-phase protein genes.