Population genomics reveals additive and replacing horizontal gene transfers in the emerging pathogen Dickeya solani

Khayi, Slimane; Blin, Patrick; Pédron, Jacques; Chong, Teik-Min; Chan, Kok‐Gan; Moumni, Mohiéddine; Hélias, Valerie; Gijsegem, Frédérique Van; Faure, Denis

doi:10.1186/s12864-015-1997-z

Cited by 51 publications

(109 citation statements)

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“…All previously characterized D. solani strains indicated identical rep-PCR and PFGE profiles (Degefu et al 2013;Tsror (Lahkim) et al 2013;van der Wolf et al 2014;Potrykus et al 2016). However, the comparison of genome sequences of several D. solani strains indicated the existence of some differences within the studied strains caused probably by the horizontal gene transfer (Khayi et al 2015).…”

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confidence: 83%

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The effect of temperature on the phenotypic features and the maceration ability of Dickeya solani strains isolated in Finland, Israel and Poland

2016

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Pectinolytic bacteria from the genus Dickeya (former Erwinia chrysanthemi), belonging to Dickeya dianthicola and Dickeya solani species, are causative agents of blackleg and soft rot diseases in Europe. Recently, D. solani have been isolated most frequently from potato plants with the symptoms of blackleg and soft rot. D. solani strains were shown to cause more severe disease symptoms on potato plants than D. dianthicola especially at the higher temperature. They are also able to develop blackleg disease from lower inoculum levels. In the presented study we not only compared phenotypic features of fifteen D. solani strains isolated in countries having different climatic conditions, Poland, Finland and Israel, but also we examined three D. dianthicola strains. The comparison was performed to determine the influence of the strain origin and the temperature of incubation on the ability of the strains to macerate potato tissue and on their major virulence factors such as: pectinolytic, cellulolytic and proteolytic activities, siderophore production and motility. Polish D. solani strains showed higher activities of cell wall degrading enzymes than the Finnish and Israeli strains at all the tested temperatures: 18, 27, 37°C. This observation is correlated with the higher ability of Polish D. solani strains to cause soft rot. In addition, D. solani strains exhibited higher activity of the above mentioned enzymes and caused more severe potato tuber maceration in laboratory tests than the tested D. dianthicola strains. The collected results indicate that although D. solani strains from different climatic conditions have identical Pulse Field Gel Electrophoresis (PFGE) profiles in addition to the same fingerprint profiles obtained by the repetitive sequence-based polymerase chain reaction (REP, ERIC and BOX repetitive sequences), they differ in the examined phenotypic features, especially in the activities of pectinolytic, cellulolytic and proteolytic enzymes and their capacity to macerate potato tuber tissue.

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confidence: 83%

“…Studies show that these pathogens are able to induce diseases at the lower inoculum levels, produce more PCWDE and in addition possess an arsenal of T5SS/T6SS secreted proteins exhibiting more diverse functions than just destroying the plant cell-wall (Toth et al 2011;Garlant et al 2013;Pedron et al 2014;Khayi et al 2015;Potrykus et al 2016). …”

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confidence: 99%

The effect of temperature on the phenotypic features and the maceration ability of Dickeya solani strains isolated in Finland, Israel and Poland

2016

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“… D. solani species is genetically highly homogenous with 99.9% in genomic similarity (ANI value) [19, 20]. Between two given D. solani genomes, the number of variations (SNPs/InDels) is below one hundred.…”

Section: Insights From the Genome Sequencementioning

confidence: 99%

“…Between two given D. solani genomes, the number of variations (SNPs/InDels) is below one hundred. For example, when D. solani strain 3337 and D. solani strain IPO 2222 T were compared, 49 variations were observed: 15 were located out of CDS and 34 within CDS [19]. Only a few of D. solani genomes (strains RNS 07.7.3B, PPO 9019 and PPO 9134) exhibited a higher number of variations (>1000) because they acquired D. dianthicola genes by horizontal gene transfer [19].…”

Section: Insights From the Genome Sequencementioning

confidence: 99%

“…Recent comparative analyses underlined the major genetic and metabolic divergences between Dickeya solani species and the nearest clades that are D. dandatii (ANI 94%) and D. dianthicola (ANI 92%) [11, 19]. D. solani is characterized by a low content of phages elements and CRISPR system: in strain IPO 2222 T genome, only one CRISPR cluster (208 bp) was identified.…”

Section: Insights From the Genome Sequencementioning

confidence: 99%

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Complete genome anatomy of the emerging potato pathogen Dickeya solani type strain IPO 2222T

Khayi

Blin

Chong

et al. 2016

Stand in Genomic Sci

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Several species of the genus Dickeya provoke soft rot and blackleg diseases on a wide range of plants and crops. Dickeya solani has been identified as the causative agent of diseases outbreaks on potato culture in Europe for the last decade. Here, we report the complete genome of the D. solani IPO 2222T. Using PacBio and Illumina technologies, a unique circular chromosome of 4,919,833 bp was assembled. The G + C content reaches 56% and the genomic sequence contains 4,059 predicted proteins. The ANI values calculated for D. solani IPO 2222T vs. other available D. solani genomes was over 99.9% indicating a high genetic homogeneity within D. solani species.Electronic supplementary materialThe online version of this article (doi:10.1186/s40793-016-0208-0) contains supplementary material, which is available to authorized users.

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Acetylome analysis of lysine acetylation in the plant pathogenic bacterium Brenneria nigrifluens

Han

Bian

et al. 2019

MicrobiologyOpen

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Population genomics reveals additive and replacing horizontal gene transfers in the emerging pathogen Dickeya solani

Cited by 51 publications

References 40 publications

The effect of temperature on the phenotypic features and the maceration ability of Dickeya solani strains isolated in Finland, Israel and Poland

The effect of temperature on the phenotypic features and the maceration ability of Dickeya solani strains isolated in Finland, Israel and Poland

Complete genome anatomy of the emerging potato pathogen Dickeya solani type strain IPO 2222T

Acetylome analysis of lysine acetylation in the plant pathogenic bacterium Brenneria nigrifluens

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