%0 Journal Article %A Dillon, Marcus M. %A Ruiz-Bedoya, Tatiana %A Bundalovic-Torma, Cedoljub %A Guttman, Kevin M. %A Kwak, Haejin %A Middleton, Maggie A. %A Wang, Pauline W. %A Horuz, Sumer %A Aysan, Yesim %A Guttman, David S. %T Comparative genomic insights into the epidemiology and virulence of plant pathogenic pseudomonads from Turkey %D 2021 %J Microbial Genomics, %V 7 %N 7 %@ 2057-5858 %C 000585 %R https://doi.org/10.1099/mgen.0.000585 %K Pseudomonas syringae %K Pseudomonas fluorescens %K phytotoxins %K type III secreted effectors %K bacterial diseases %K plant pathogens %I Microbiology Society, %X Pseudomonas is a highly diverse genus that includes species that cause disease in both plants and animals. Recently, pathogenic pseudomonads from the Pseudomonas syringae and Pseudomonas fluorescens species complexes have caused significant outbreaks in several agronomically important crops in Turkey, including tomato, citrus, artichoke and melon. We characterized 169 pathogenic Pseudomonas strains associated with recent outbreaks in Turkey via multilocus sequence analysis and whole-genome sequencing, then used comparative and evolutionary genomics to characterize putative virulence mechanisms. Most of the isolates are closely related to other plant pathogens distributed among the primary phylogroups of P. syringae , although there are significant numbers of P. fluorescens isolates, which is a species better known as a rhizosphere-inhabiting plant-growth promoter. We found that all 39 citrus blast pathogens cluster in P. syringae phylogroup 2, although strains isolated from the same host do not cluster monophyletically, with lemon, mandarin orange and sweet orange isolates all being intermixed throughout the phylogroup. In contrast, 20 tomato pith pathogens are found in two independent lineages: one in the P. syringae secondary phylogroups, and the other from the P. fluorescens species complex. These divergent pith necrosis strains lack characteristic virulence factors like the canonical tripartite type III secretion system, large effector repertoires and the ability to synthesize multiple bacterial phytotoxins, suggesting they have alternative molecular mechanisms to cause disease. These findings highlight the complex nature of host specificity among plant pathogenic pseudomonads. %U https://www.microbiologyresearch.org/content/journal/mgen/10.1099/mgen.0.000585