Characterization of mutations of the bacteriophage P1 mod gene encoding the recognition subunit of the EcoP1 restriction and modification system.

This study characterized several mutations of the bacteriophage P1 mod gene. This gene codes for the subunit of the EcoP1 restriction enzyme that is responsible for DNA sequence recognition and for modification methylation. We cloned the mutant mod genes into expression vectors and purified the mutant proteins to near homogeneity. Two of the mutant mod genes studied were the c2 clear-plaque mutants described by Scott (Virology 41:66-71, 1970). These mutant proteins can recognize EcoP1 sites in DNA and direct restriction but are unable to modify DNA. Methylation assays as well as S-adenosylmethionine (SAM) binding studies showed that the c2 mutants are methylation deficient because they do not bind SAM, and we conclude that the mutations destroy the SAM-binding site. Both of the c2 mutations lie within a region of the EcoP1 mod gene that is not conserved when compared with the mod gene of the related EcoP15 system. EcoP15 and EcoP1 recognize different DNA sequences, and we believe that this region of the protein may code for the DNA-binding site of the enzyme. The other mutants characterized were made by site-directed mutagenesis at codon 240. Evidence is presented that one of them, Ser-240----Pro, simultaneously lost the capacity to bind SAM and may also have changed its DNA sequence specificity.