The inhibitory effect of mono-, bis-, tris- and tetra-benzamidine structures (benzamidine, DAPP, TAPB and TAPP, respectively) on the catalytic properties of human alpha-, beta- and gamma-thrombin (alpha-, beta- and gamma-thrombin, respectively) was investigated (between pH 2.0 and 7.0, I = 0.1 M; T = 37.0 +/- 0.5 degrees C). The affinity of DAPP, TAPB and TAPP for alpha- and beta-thrombin is higher than that found for benzamidine association around neutrality, converging in the acidic pH limb; in contrast, benzamidine, DAPP, TAPB and TAPP show the same value of the association inhibition constant (Ki; M-1) for gamma-thrombin over the whole pH range explored. On lowering the pH from 5.5 to 3.0, the decrease in affinity for benzamidine binding to alpha-, beta- and gamma-thrombin, as well as for DAPP, TAPB and TAPP association to gamma-thrombin reflects the acidic-pK shift, upon inhibitor binding of a single ionizing group. On the other hand, values of Ki for DAPP, TAPB and TAPP binding to alpha- and beta-thrombin appear to be modulated by the acidic-pK shift, upon inhibitor association, of two equivalent proton-binding residues over the same pH range. By considering molecular models of the serine proteinase:inhibitor complexes, the observed binding behaviour of benzamidine, DAPP, TAPB and TAPP to alpha-, beta- and gamma-thrombin has been related to the inferred stereochemistry of the enzyme:inhibitor contact region(s).