A rapid purification procedure for the HsdM protein of EcoR124I and biophysical characterization of the purified protein

Type I restriction–modification (R–M) systems are comprised of two multi-subunit enzymes with complementary functions: the methyltransferase (∼160 kDa), responsible for methylation of DNA, and the restriction endonuclease (∼400 kDa), responsible for DNA cleavage. Both enzymes share a number of subunits, including HsdM. Characterisation of either enzyme first requires the expression and purification of its constituent subunits, before reconstitution of the multisubunit complex. Previously, purification of the HsdM protein had proved problematic, due to the length of time required for the purification and its susceptibility to degradation. A new protocol was therefore developed to decrease the length of time required to purify the HsdM protein and thus prevent degradation. Finally, we show that the HsdM subunit exhibits a concentration dependent monomer–dimer equilibrium.

► A rapid purification method, producing 20 mg of protein from 5 g cell paste. ► A novel application of desalting columns to achieve a high degree of purity. ► The method may be of general relevance for purification of DNA-binding proteins. ► The HsdM protein exists in a concentration dependent monomer-dimer equilibrium.