Dual start motif in two lambdoid S genes unrelated to lambda S

Abstract

The lysis gene region of phage 21 contains three overlapping reading frames, designated S21, R21, and Rz21 on the basis of the analogy with the SRRz gene cluster of phage lambda. The 71-codon S21 gene complements lambda Sam7 for lysis function but shows no detectable homology with S lambda in the amino acid or nucleotide sequence. A highly related DNA sequence from the bacteriophage PA-2 was found by computer search of the GenBank data base. Correction of this sequence by insertion of a single base revealed another 71-codon reading frame, which is accordingly designated the SPA-2 gene and is 85% identical to S21. There are thus two unrelated classes of S genes; class I, consisting of the homologous 107-codon S lambda and 108-codon P22 gene 13, and class II, consisting of the 71-codon S21 and SPA-2 genes. The codon sequence Met-Lys-(X)-Met...begins all four genes. The two Met codons in S lambda and 13 have been shown to serve as translational starts for distinct polypeptide products which have opposing functions: the shorter polypeptide serves as the lethal lysis effector, whereas the longer polypeptide acts as a lysis inhibitor. To test whether this same system exists in the class II S genes, the Met-I and Met-4 codons of S21 were altered in inducible plasmid clones and the resultant lysis profiles were monitored. Elimination of the Met-1 start results in increased toxicity, and lysis, although not complete, begins earlier, which suggests that both starts are used in the scheduling of lysis by S21 and is consistent with the idea that the 71- and 68-residue products act as a lysis inhibitor and a lysis effector, respectively. In addition, the R gene of 21 was shown to be related to P22 gene 19, which encodes a true lysozyme activity, and was also found to be nearly identical to PA-2 ORF2. We infer that the 21 and PA-2 R genes both encode lysozymes in the T4 e gene family. These three genes form a second class lambdoid R genes, with the lambda R gene being the sole member of the first class. The existence of two interchangeable but unrelated classes of S genes and R genes is discussed in terms of a model of bacteriophage evolution in which the individual gene is the unit of evolution.