EJ-1, a temperate bacteriophage of Streptococcus pneumoniae with a Myoviridae morphotype

Abstract

The first temperate bacteriophage (EJ-1) of Streptococcus pneumoniae with Myoviridae morphotype A1 isolated from a clinical atypical strain has been purified and characterized. This phage has a double-stranded linear genome about 42 kb long, but in contrast to the other pneumococcal temperate phages that have been characterized so far, EJ-1 does not contain any protein covalently linked to it. We have sequenced a fragment of EJ-1 DNA containing the ejl gene, encoding a cell wall lytic enzyme (EJL amidase). This gene has been cloned and expressed in Escherichia coli, and the EJL enzyme was purified and biochemically characterized as an N-acetylmuramyl-L-alanine amidase that shares many similarities with the major pneumococcal autolysin. The EJL amidase is a choline-dependent enzyme that needs the process of conversion to achieve full enzymatic activity, but in contrast to the wild-type pneumococcal LYTA amidase, this process was found to be reversible. Comparisons of the primary structure of this new lytic enzyme with that of the other cell wall lytic enzymes of S. pneumoniae and its bacteriophages characterized so far provided new insights as to the evolutionary relationships between phages and bacteria. The nucleotide sequences of the attachment site (attP) on the phage genome and one of the junctions created by the insertion of the prophage were determined. Interestingly, the attP site was located near the ejl gene, as previously observed for the pneumococcal temperate bacteriophage HB-3 (A. Romero, R. López, and P. García, J. Virol. 66:2860-2864, 1992). A stem-and-loop structure, some adjacent direct and inverted repeats, and two putative integration host factor-binding sites were found in the att sites.