ABSTRACT: 1. The Ca(2+) dependence of the activity of plasma Factor XIII(a) was studied by using the continuous assay based on the incorporation of dansylcadaverine into dephosphorylated acetylated beta-casein (beta-substrate). The K(m) for Ca(2+) is about 0.170mm. 2. At low concentrations of Ca(2+) there was a lag in attaining the steady-state rate. The size of the lag was decreased and eventually abolished if the enzyme was preincubated with a high concentration of Ca(2+) before assay. The concentration of Ca(2+) required to decrease the lag phase by 50% in 10min depended on the protein concentration: at 0.87mg of protein/ml it required 17mm-Ca(2+) and at 0.44mg/ml it needed 10mm-Ca(2+). 3. The concentrations of Ca(2+) required either to abolish the lag phase in the appearance of enzyme activity or to activate the essential thiol for reaction with 5,5'-dithiobis-(2-nitrobenzoate) in 10min incubation were similar at the same protein concentration. This indicated that Ca(2+) induces a conformation change that is responsible for both phenomena. A model is proposed that links this conformation change to the dissociation of the tetrameric enzyme. 4. This was supported by the observation that the addition of excess of b chains to the Factor XIII(a) (a'(2)b(2)) increased the concentration of Ca(2+) required to expose the reactive thiol, and inhibited the Ca(2+)-dependent aggregation of a' chains. 5. Platelet Factor XIII(a) (a'(2)) was inhibited by 5,5'-dithiobis-(2-nitrobenzoate) in the absence of Ca(2+), and no lag phases were observed in attaining the steady-state rate at low Ca(2+) concentrations, thus confirming the model for the activation of the plasma enzyme. 6. The Ca(2+) dependence of platelet Factor XIII(a) indicated that Ca(2+) has an additional role in the enzyme mechanism of the plasma enzyme, perhaps being involved in substrate binding. 7. The dependence of the stability of plasma Factor XIII(a) on Ca(2+) and protein concentration indicates that the decay in activity is related to the tetramer dissociation. 8. beta-Substrate decreased the Ca(2+) concentration required for (1) abolition of the lag phase and (2) enzyme inhibition by thiol reagents. The effect on the former is greater than on the latter. 9. The role of the b chains of the plasma Factor and the evolutionary significance of the plasma and platelet Factors are considered.