In silico analysis of diversity, specificity and molecular evolution of Stenotrophomonas phages.

In this study, we have focused on the lytic phage proteins encoded by the Stenotrophomonas phages. A total of 60 lytic proteins were identified to be encoded by 19 different phages. Those proteins were characterized under eight classes: amidases, muramidases, pectate lyase, peptidases, holins and spanins. The phages encoding these proteins come under the family of Ackermannviridae, Autographiviridae, Myoviridae, Podoviridae and Siphoviridae. All the phages encoding those proteins were found to infect Stenotrophomonas maltophilia. Among the phages, about 50% were found to undergo a lytic lifecycle. The isolated proteins were clustered according to the similarity in the amino acid sequence. These clusters were used to make their phylogenetic tree. The co-occurrence of the amidase, pectate lyase and lipase genes in the phage genome was found using a correlation analysis.