Kinetic analysis of Escherichia coli ribonuclease HI using oligomeric DNA/RNA substrates suggests an alternative mechanism for the interaction between the enzyme and the substrate.

Escherichia coli ribonuclease HI mainly recognizes the DNA/RNA hybrid regions preceding the cleavage site. To understand the interaction between the enzyme and the substrate in more detail, the kinetic properties of the enzyme, as well as its variant with mutations in the basic protrusion, were studied using a series of oligomeric DNA/RNA hybrids as substrates. These substrates were prepared by hybridizing a 12-b RNA (5'-CGGAGAUGACGG-3') with DNA oligomers varying in size and sequence. The 12-b RNA hybridized to the complementary 12-b DNA was primarily cleaved at A9-C10. Since an increase in the length of the RNA between the cleavage site and the 5' end of the DNA/RNA hybrid, achieved using a longer DNA/RNA substrate, did not seriously affect the kinetic parameters of the enzyme, the 12-bp DNA/RNA hybrid seems to be large enough to contact the entire substrate-binding site of the enzyme. The kinetic data presented here suggest that the DNA residues complementary to the RNA residues located six or seven residues upstream from the cleavage site interact with the basic protrusion of the enzyme, regardless of whether or not it is hybridized to the RNA strand. Such an interaction is permitted only when the conformation of either the enzyme or the substrate, or both, is changed upon binding.