Isolation of BamHI variants with reduced cleavage activities.

Derivation of the bamhIR sequence (Brooks, J. E., Nathan, P.D., Landry, D., Sznyter, L.A., Waite-Rees, P., Ives, C. C., Mazzola, L. M., Slatko, B. E., and Benner, J. S. (1991) Nucleic Acids Res., in press), the gene coding for BamHI endonuclease, has facilitated construction of an Escherichia coli strain that overproduces BamHI endonuclease (W. E. Jack, L. Greenough, L. F. Dorner, S. Y. Xu, T. Strezelecka, A. K. Aggarwal, and I. Schildkraut, submitted for publication). As expected, low-level constitutive expression of the bamhIR gene in E. coli from the Ptac promotor construct is lethal to the host unless the bamHIM gene, which encodes the BamHI methylase, is also expressed within the cell. We identified four classes of BamHI endonuclease variants deficient in catalysis by selecting for survival of a host deficient for bamHIM gene, transformed with mutagenized copies of the bamhIR gene, and then screening the surviving cell extracts for DNA cleavage and binding activities. Class I variants (G56S, G91S/T153I, T114I, G130R, E135K, T153I, T157I, G194D) displayed 0.1-1% of the wild-type cleavage activity; class II variant (D94N) lacked cleavage activity but retained wild-type DNA binding specificity; class III variants (E77K, E113K) lacked cleavage activity but bound DNA more tightly; class IV variants (G56D, G90D, G91S, R122H, R155H) lacked both binding and cleavage activities. Variants with residual cleavage activities induced the E. coli SOS response and thus are presumed to cleave chromosomal DNA in vivo. We conclude that Glu77, Asp94, and Glu113 residues are essential for BamHI catalytic function.