Complete genome analysis of Pantoea agglomerans-infecting bacteriophage vB_PagM_AAM22.

A novel myovirus, vB_PagM_AAM22 (AAM22), was isolated in Lithuania using Pantoea agglomerans as the host for phage propagation. The 49,744-bp genome of AAM22 has a G + C content of 48.4% and contains 96 probable protein-encoding genes and no genes for tRNA. In total, 34 ORFs were given a putative functional annotation, including genes associated with virion morphogenesis, DNA metabolism, and phage-host interactions. Based on comparative phylogenetic analysis, AAM22 cannot be assigned to any genus currently recognized by the ICTV and is a potential candidate to form a new genus within the family Myoviridae.

Pantoeaagglomerans-Infecting Bacteriophage vB_PagS_AAS21: A Cold-Adapted Virus Representing a Novel Genus within the Family Siphoviridae.

A novel cold-adapted siphovirus, vB_PagS_AAS21 (AAS21), was isolated in Lithuania using Pantoea agglomerans as the host for phage propagation. AAS21 has an isometric head (~85 nm in diameter) and a non-contractile flexible tail (~174 × 10 nm). With a genome size of 116,649 bp, bacteriophage AAS21 is the largest Pantoea-infecting siphovirus sequenced to date. The genome of AAS21 has a G+C content of 39.0% and contains 213 putative protein-encoding genes and 29 genes for tRNAs. A comparative sequence analysis revealed that 89 AAS21 open reading frames (ORFs) code for unique proteins that have no reliable identity to database entries. In total, 63 AAS21 ORFs were functionally annotated, including those coding for the proteins responsible for virion morphogenesis, phage-host interactions, and DNA metabolism. Proteomic analysis led to the experimental identification of 19 virion proteins, including 11 that were predicted by bioinformatics approaches. Based on comparative phylogenetic analysis, AAS21 cannot be assigned to any genus currently recognized by ICTV and may represents a new branch of viruses within the family Siphoviridae.