Abstract

BackgroundDickeya solani is an important plant pathogenic bacterium causing severe losses in European potato production. This species draws a lot of attention due to its remarkable virulence, great devastating potential and easier spread in contrast to other Dickeya spp. In view of a high need for extensive studies on economically important soft rot Pectobacteriaceae, we performed a comparative genomics analysis on D. solani strains to search for genetic foundations that would explain the differences in the observed virulence levels within the D. solani population.ResultsHigh quality assemblies of 8 de novo sequenced D. solani genomes have been obtained. Whole-sequence comparison, ANIb, ANIm, Tetra and pangenome-oriented analyses performed on these genomes and the sequences of 14 additional strains revealed an exceptionally high level of homogeneity among the studied genetic material of D. solani strains. With the use of 22 genomes, the pangenome of D. solani, comprising 84.7% core, 7.2% accessory and 8.1% unique genes, has been almost completely determined, suggesting the presence of a nearly closed pangenome structure. Attribution of the genes included in the D. solani pangenome fractions to functional COG categories showed that higher percentages of accessory and unique pangenome parts in contrast to the core section are encountered in phage/mobile elements- and transcription- associated groups with the genome of RNS 05.1.2A strain having the most significant impact. Also, the first D. solani large-scale genome-wide phylogeny computed on concatenated core gene alignments is herein reported.ConclusionsThe almost closed status of D. solani pangenome achieved in this work points to the fact that the unique gene pool of this species should no longer expand. Such a feature is characteristic of taxa whose representatives either occupy isolated ecological niches or lack efficient mechanisms for gene exchange and recombination, which seems rational concerning a strictly pathogenic species with clonal population structure. Finally, no obvious correlations between the geographical origin of D. solani strains and their phylogeny were found, which might reflect the specificity of the international seed potato market.

Highlights

  • Dickeya solani is an important plant pathogenic bacterium causing severe losses in European potato production

  • No obvious correlations between the geographical origin of D. solani strains and their phylogeny were found, which might reflect the specificity of the international seed potato market

  • In contrast to D. solani, we reported that another member of the Pectobacteriaceae family, namely Pectobacterium parmentieri, possesses an open pangenome [93]

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Summary

Introduction

Dickeya solani is an important plant pathogenic bacterium causing severe losses in European potato production. Dickeya spp. together with Pectobacterium spp. belong to the family Pectobacteriaceae [1] and are causative agents of economically important soft rot and blackleg diseases affecting various crops, vegetables and ornamentals worldwide [2]. These bacterial phytopathogens decay host tissue due to the production of a broad range of plant cell wall degrading enzymes (PCWDEs) i.e. pectinases (pectate and pectin lyases, polygalacturonases, pectin-methyl and acetyl esterases), cellulases and proteases, which are secreted via type I or II secretion systems [3, 4]. Assessment of the total economic impact of these diseases is demanding as Pectobacterium and Dickeya spp. are present on various plant hosts in diverse geographical regions where miscellaneous seed certification policies remain in force [11]

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