Plasmids encode and can mobilize onion pathogenicity in Pantoea agglomerans

Pantoea agglomerans is one of four Pantoea species for which strains have been reported in the United States to cause bacterial rot of onion bulbs. However, not all P. agglomerans strains are pathogenic to onion. We characterized onion-associated strains of P. agglomerans to elucidate the genetic and genomic signatures of onion-pathogenic P. agglomerans . We collected >300 P. agglomerans strains associated with symptomatic onion plants and bulbs from public culture collections, research laboratories, and a multi-year survey in 11 states in the USA. Genome assemblies were generated for 87 P. agglomerans strains that showed a range in onion virulence phenotypes. Combining the 87 genome assemblies with 100 high-quality, public P. agglomerans genome assemblies identified two well-represented and well-supported P. agglomerans phylogroups. Strains causing severe symptoms on onion leaves and bulbs were only identified in Phylogroup II and encoded the HiVir biosynthetic cluster for the phytotoxin pantaphos, supporting the role of HiVir as a crucial pathogenicity factor. Using a MASH-based plasmid classification system, the P. agglomerans HiVir cluster was determined to be encoded in two distinct plasmid contexts: 1) as an accessory gene cluster on a conserved P. agglomerans plasmid (pAggl), or 2) on a mosaic cluster of plasmids common among onion strains (pOnion). Analysis of closed genomes of P. agglomerans revealed that the pOnion plasmids harbored alt genes responsible for encoding tolerance to the thiosulfinate defensive chemistry in Allium spp. Additionally, many of these pOnion plasmids harbored cop gene clusters, which confer resistance to copper. However, the pOnion plasmids encoded the HiVir cluster less frequently. We demonstrated that the pOnion plasmid pCB1C, encoding HiVir and alt clusters as well as an intact conjugative type IV secretion system (T4SS), can act as a natively mobilizable pathogenicity plasmid that transforms P. agglomerans Phylogroup I strains, including environmental strains, into virulent pathogens of onion. This work indicates a central role for plasmids and plasmid ecology in mediating P. agglomerans interactions with onion plants, with potential implications for onion bacterial disease management.