A threonine residue at the beginning of each DNA-binding domain of HMG-I (residue numbers 21, 53, and 78) is conserved among mammalian species and proposed to help stabilize the A.T-hook DNA-binding motif. Phosphorylation of threonines number 53 and 78 of human HMG-I(Y) both in vivo and in vitro leads to a 20 fold reduction in the proteins DNA binding affinity. Recombinant human HMG-I proteins were engineered to contain alanine instead of the conserved threonine in each DNA-binding domain. The DNA dissociation constant of each protein was assayed at various salt concentrations by competition with the fluorescent dye Hoechst 33258 for an AT-rich DNA substrate. Replacement of these threonines did not affect the equilibrium binding of these proteins to DNA as compared with wild-type HMG-I and HMG-Y. Molecular modelling of analogous peptides supported this finding. We conclude that these threonines are not directly important for A.T-hook DNA-binding and are conserved phosphorylation sites for down regulation of DNA binding by the A.T-hook motif in the HMG-I(Y) proteins.