Dickeya species relatedness and clade structure determined by comparison of recA sequences

Parkinson, Neil; Stead, D. E.; Bew, Jan; Heeney, Jonathan L.; Tsror, Leah; Elphinstone, J. G.

doi:10.1099/ijs.0.009258-0

Cited by 86 publications

(109 citation statements)

References 14 publications

Supporting

Mentioning

101

Contrasting

Order By: Relevance

“…Multi Locus Sequence Analysis underpinned that Dickeya constitutes a distinct genetic clade in the soft rot Enterobacteriaceae [2]. Dickeya species are broad host range phytopathogens which principal disease symptom is maceration of plant tissues due to pectinolytic activity [2], [3]. Strains affecting potato are mainly found in three Dickeya species, i.e.…”

Section: Introductionmentioning

confidence: 99%

“…Erwinia chrysanthemi is known in potato production in some European countries for over 40 years and is associated with slow wilt and internal stem necrosis. These strains are now assigned to D. dianthicola [3], [5]. However, in the past few years a new Dickeya biovar 3 strain, tentatively named ‘ Dickeya solani ’, has emerged as a common major threat, in particular on seed potatoes [5].…”

Section: Introductionmentioning

confidence: 99%

“…Ralstonia solanacearum [9], Pseudomonas syringae [10] and Xanthomonas [11]. The rec A locus was used for the first phylogenetic analysis of all species within the genus Dickeya , extending previous studies based on 16S rDNA [3]. It displayed new genomic clades and, in particular, a clonal delineation of an emerging biovar 3 variant isolated from potato in the past decade in Europe [12].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Sequence Diversity in the Dickeya fliC Gene: Phylogeny of the Dickeya Genus and TaqMan® PCR for 'D. solani', New Biovar 3 Variant on Potato in Europe

Vaerenbergh¹,

Baeyen²,

Vos

et al. 2012

PLoS ONE

View full text Add to dashboard Cite

Worldwide, Dickeya (formerly Erwinia chrysanthemi) is causing soft rot diseases on a large diversity of crops and ornamental plants. Strains affecting potato are mainly found in D. dadantii, D. dianthicola and D. zeae, which appear to have a marked geographical distribution. Furthermore, a few Dickeya isolates from potato are attributed to D. chrysanthemi and D. dieffenbachiae. In Europe, isolates of Erwinia chrysanthemi biovar 1 and biovar 7 from potato are now classified in D. dianthicola. However, in the past few years, a new Dickeya biovar 3 variant, tentatively named ‘Dickeya solani’, has emerged as a common major threat, in particular in seed potatoes. Sequences of a fliC gene fragment were used to generate a phylogeny of Dickeya reference strains from culture collections and with this reference backbone, to classify pectinolytic isolates, i.e. Dickeya spp. from potato and ornamental plants. The reference strains of the currently recognized Dickeya species and ‘D. solani’ were unambiguously delineated in the fliC phylogram. D. dadantii, D. dianthicola and ‘D. solani’ displayed unbranched clades, while D. chrysanthemi, D. zeae and D. dieffenbachiae branched into subclades and lineages. Moreover, Dickeya isolates from diagnostic samples, in particular biovar 3 isolates from greenhouse ornamentals, formed several new lineages. Most of these isolates were positioned between the clade of ‘D. solani’ and D. dadantii as transition variants. New lineages also appeared in D. dieffenbachiae and in D. zeae. The strains and isolates of D. dianthicola and ‘D. solani’ were differentiated by a fliC sequence useful for barcode identification. A fliC TaqMan®real-time PCR was developed for ‘D. solani’ and the assay was provisionally evaluated in direct analysis of diagnostic potato samples. This molecular tool can support the efforts to control this particular phytopathogen in seed potato certification.

show abstract

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Sequence Diversity in the Dickeya fliC Gene: Phylogeny of the Dickeya Genus and TaqMan® PCR for 'D. solani', New Biovar 3 Variant on Potato in Europe

Vaerenbergh¹,

Baeyen²,

Vos

et al. 2012

PLoS ONE

View full text Add to dashboard Cite

show abstract

“…D. zeae is able to infect both monocotyledons and dicotyledons, while most other Dickeya species could only infect dicotyledons (Goto 1979;Hussain et al 2008;Sinha and Prasad 1977). Phylogenetic analysis of Dickeya species showed that D. zeae is most distinct from other species and contains more sequevars than others (Parkinson et al 2009). This genetic diversity may explain the wide distribution of D. zeae, and the diseases caused by this bacterial pathogen have been documented in many different regions and countries around the world (SabetOur curiosity on the host range determinants and pathogenic mechanisms of D. zeae has led to identification of zeamine and zeamine II, which are structurally similar polyketide molecules with potent antimicrobial activities (Wu et al 2010;Zhou et al 2011;Liao et al 2015).…”

Section: Introductionmentioning

confidence: 98%

A Sfp-type phosphopantetheinyl transferase ZmsO is essential for zeamines production and the virulence of Dickeya zeae

et al. 2016

View full text Add to dashboard Cite

Zeamines are family of potent antibiotics and virulence determinants produced by the rice foot rot bacterial pathogen Dickeya zeae. So zeamines are important for the pathogenesis of D. zeae and development of new strategies against this devastating disease. In this study, we show that production of zeamines is positively modulated by ZmsO, which is a conserved Sfp-type phosphopantetheinyl thransferase (PPTase) associated with post-translational activation of fatty acid synthases and polyketide synthases. Deletion of zmsO significantly abolished zeamines production and attenuated the virulence of D. zeae without affect the growth rate. The zmsO gene is located at the upstream of zmsA and zmsK in the same gene cluster. Consistent with its role in post-translational modification, deletion of zmsO did not affect the transcriptional expression of zmsA and zmsK. In trans expression of the pcpS gene from Pseudomonas aeruginosa, which encodes a Sfp-type PPTase, in the zmsO deletion mutant could also fully restore the zeamines production and bacterial virulence, establishing the important role of Sfp-type PPTase in the zeamines biosynthesis and pathogenicity of D. zeae.

show abstract

“…Several genomic regions, including PCR fragments obtained from rep-PCR profiles (Rico et al 2008), plasmidial sequences (Bereswill et al 1992;Barbé et al 2014) and draft whole genome sequences (Pritchard et al 2013), have been used for the development of specific identification tools for plant pathogenic enterobacteria. The recombinase A (recA) gene is a valuable marker for the major bacterial groups (Eisen, 1995) and for differentiating species in Erwinia and related genera (Waleron et al 2002;Young and Park 2007;Parkinson et al 2009;Wensing et al 2010). Despite the high degree of sequence conservation in the recA gene, the existing sequence polymorphism was useful for differentiating 19 species in Erwinia (Waleron et al 2002).…”

Section: Introductionmentioning

confidence: 99%

PCR-based methods for detection of Erwinia psidii on guava

Silva

Torres

Oliveira

et al. 2015

Trop. plant pathol.

View full text Add to dashboard Cite

Erwinia psidii causes bacterial blight of guava (Psidium guajava), one of the most important diseases of this crop in Brazil. Control measures are not effective, and dissemination often occurs through contaminated but asymptomatic propagating plant material. Considering the need for a reliable and sensitive method for detecting the pathogen in asymptomatic plant material, E. psidii-specific PCR primers were designed from a 355-bp fragment of the recombinase A gene (recA) amplified from E. psidii type strain. Primer pair Ep2L/2R only amplified DNA from E. psidii and its detection limit was 10 −5 ng/μL of purified DNA and 10 CFU (colony forming units) of bacterial cell suspension/mL. Three methods, conventional PCR, IC-PCR, and BIO-PCR were evaluated with the selected primers for their potential to detect E. psidii on guava leaves. BIO-PCR and conventional PCR were more sensitive and less time-consuming than IC-PCR. The detection limits on extracts of macerated guava leaves spiked with bacterial suspensions at different concentrations were 10 and 10 3 CFU/mL for BIO-PCR and conventional PCR, respectively. The PCR method here described could be useful for developing a protocol for early detection of this pathogen in asymptomatic guava plants.

show abstract

Dickeya species relatedness and clade structure determined by comparison of recA sequences

Cited by 86 publications

References 14 publications

Sequence Diversity in the Dickeya fliC Gene: Phylogeny of the Dickeya Genus and TaqMan® PCR for 'D. solani', New Biovar 3 Variant on Potato in Europe

Sequence Diversity in the Dickeya fliC Gene: Phylogeny of the Dickeya Genus and TaqMan® PCR for 'D. solani', New Biovar 3 Variant on Potato in Europe

A Sfp-type phosphopantetheinyl transferase ZmsO is essential for zeamines production and the virulence of Dickeya zeae

PCR-based methods for detection of Erwinia psidii on guava

Contact Info

Product

Resources

About