PI-1710b-2                           Patatin-like phospholipase (2) Alteromonas macleodii PI-LB400-1                           Phage growth limitation system (pglY, pglZ) Polaromonas naphthalenivorans PI-E264-1                           Pyocin repressor protein (PrtR) Ralstonia picketti PI-CGD1-2 PI-17616-1                         Pyocin-related (R2_PP-tail formation)(1) Xanthomonas oryzae

ϕK96243 PI-17616-4 PI-1655-1 ϕE202 ϕ52237 PI-CGD1-1 PI-264-4 ϕE12-2 GI15 PI-S13-1 PI-S13-3 PI-406E-2 ϕE265 BcepMu Pyocin-related (R2_PP-tail formation)(2) Azotobacter vinelandii Phage ϕK96243 PI-17616-4 PI-1655-1 ϕE202 ϕ52237 PI-CGD1-1 PI-S13-1 ϕE12-2 GI15 ACY-1215 mw PI-E264-2 PI-S13-3 PI-406E-2     Pyocin-related (TraC domain) Pseudomonas fluorescens PI-406E-2                           Reverse transcriptase (UG1)

Ralstonia eutropha GI3                           Reverse transcriptase (UG3 & 8) Providencia stuartii GI3                           Soluble lytic murein trans glycolase Sideroxydans lithotrophicus ϕE255 BcepMu                         TA system (relE) Beggiatoa sp. PS ϕ1026b ϕE125 ϕ644-2 PI-1710b-2                   TI secretion (tolC) Psedomonas aeruginosa PI-Pasteur-3                           TII secretion (eha) Chromobacterium violaceum ϕE255 BcepMu                   AZD1390 cost       TIII restriction-modification system (2 genes) Aromatoleum aromaticum PI-1710b-3                           Type I restriction-modification system (4 genes) Acidovorax sp. PI-Pasteur-3                           *Morons were identified as described in Methods. Phages listed in each column selleck inhibitor contain the predicted moron function. Non-Burkholderia species that have the closest protein as identified by BLASTp (E value less than 10-3) are presented. Figure 4 Regional sequence alignments of Siphoviridae-like prophages. Comparative genomic analysis of siphoviridae-like prophages and PIs detailing morons encoding DNA methylase RsrI, PAPS reductase/sulfotransferase, and putative chromosome partitioning factor. Gray shading represents

conservation at greater than 90% identity among all genomes. Mauve or orange shading represents conservation at 90% identity in a selleck subset of genomes. Analysis of predicted functions of the Burkholderia morons shows that several of these proteins may enhance bacteriophage fitness, and thus replication, as proposed for other morons [20]. For example, two different morons containing toxin-antitoxin modules were found among the Myoviridae and Siphoviridae groups (Table 2). Interestingly, the T-A module in the Myoviridae phages is similar to two modules present in other B. pseudomallei and even B. mallei strains in regions containing phage remnants (data not shown), suggesting that this moron can persist even after the phage has been excised from the genome.