Lysozymes have proved useful for analyzing the relation between protein structure and function and evolution. In bacteriophage T4, the major soluble lysozyme is the product of the e gene, gpe (gene product = gp). This lysozyme destroys the wall of its host, Escherichia coli, at the end of infection to release progeny particles. Phage T4 contains two additional lysozymes that facilitate penetration of the baseplates into host cell walls during adsorption. At least one of these, a 44-kD protein, is encoded by gene 5. We show here that a segment of the gp5 lysozyme amino acid sequence, deduced from the DNA sequence of gene 5, is remarkably similar to that of the T4 gene e lysozyme. Both T4 lysozymes are somewhat similar to the lysozyme of the Salmonella phage P22, but there is little significant DNA sequence homology among the two T4 lysozyme genes and the P22 lysozyme gene. We speculate that these lysozymes are adapted to differences in the composition of the cell walls of E. coli and S. typhimurium. The cloned gene 5 of the phage T4 directs synthesis of a 63-kD precursor protein that is approximately 19 kD larger than the gene 5 protein isolated from baseplates. Gp5 first associates with gp26 to form the central hub of this structure.(ABSTRACT TRUNCATED AT 250 WORDS)