Abstract
BackgroundBacterial plant pathogens of the Pectobacterium genus are responsible for a wide spectrum of diseases in plants, including important crops such as potato, tomato, lettuce, and banana. Investigation of the genetic diversity underlying virulence and host specificity can be performed at genome level by using a comprehensive comparative approach called pangenomics. A pangenomic approach, using newly developed functionalities in PanTools, was applied to analyze the complex phylogeny of the Pectobacterium genus. We specifically used the pangenome to investigate genetic differences between virulent and avirulent strains of P. brasiliense, a potato blackleg causing species dominantly present in Western Europe.ResultsHere we generated a multilevel pangenome for Pectobacterium, comprising 197 strains across 19 species, including type strains, with a focus on P. brasiliense. The extensive phylogenetic analysis of the Pectobacterium genus showed robust distinct clades, with most detail provided by 452,388 parsimony-informative single-nucleotide polymorphisms identified in single-copy orthologs. The average Pectobacterium genome consists of 47% core genes, 1% unique genes, and 52% accessory genes. Using the pangenome, we zoomed in on differences between virulent and avirulent P. brasiliense strains and identified 86 genes associated to virulent strains. We found that the organization of genes is highly structured and linked with gene conservation, function, and transcriptional orientation.ConclusionThe pangenome analysis demonstrates that evolution in Pectobacteria is a highly dynamic process, including gene acquisitions partly in clusters, genome rearrangements, and loss of genes. Pectobacterium species are typically not characterized by a set of species-specific genes, but instead present themselves using new gene combinations from the shared gene pool. A multilevel pangenomic approach, fusing DNA, protein, biological function, taxonomic group, and phenotypes, facilitates studies in a flexible taxonomic context.
Highlights
Bacterial plant pathogens of the Pectobacterium genus are responsible for a wide spectrum of diseases in plants, including important crops such as potato, tomato, lettuce, and banana
A novel collection of high-quality Pectobacterium genomes capturing genetic diversity To capture the genetic diversity in the genus Pectobacterium and to extend the limited collection of available genomes, we sequenced 63 Pectobacterium isolates (55 P. brasiliense, 3 P. versatile, 1 P. aquaticum, 1 P. parmentieri, 2 P. polaris and 1 P. punjabense) de novo using both Illumina and PacBio technologies (Additional file 1: Table S1)
As comparative genomic approaches highly depend on genome quality, we estimated genome completeness using the BUSCO v3 data set Enterobacteriales odb9 (781 orthologs) [33]
Summary
Bacterial plant pathogens of the Pectobacterium genus are responsible for a wide spectrum of diseases in plants, including important crops such as potato, tomato, lettuce, and banana. Investigation of the genetic diversity underlying virulence and host specificity can be performed at genome level by using a comprehensive comparative approach called pangenomics. We used the pangenome to investigate genetic differences between virulent and avirulent strains of P. brasiliense, a potato blackleg causing species dominantly present in Western Europe. Bacteria from the Pectobacterium genus (formerly Erwinia) are among the top ten economically most studied plant pathogenic bacteria, reflecting its economic importance [1]. They cause a broad spectrum of bacterial soft rot diseases (soft rot, blackleg, and stem wilt) in a wide host range of important crops [2, 3]. In an era where the number of sequenced strains is rapidly growing, improved tools for comparative genomics are required to support phylogenetic and host pathogen research
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