Genetic and structural determinants on iron assimilation pathways in the plant pathogen Xanthomonas citri subsp. citri and Xanthomonas sp.

Guerra, Gabriel Soares; Balan, Andrea

doi:10.1007/s42770-019-00207-x

Cited by 7 publications

(4 citation statements)

References 69 publications

(89 reference statements)

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“…Likewise, Fe 2+ transport by Feo can determine the outcomes of bacterial infections within animal and plant hosts in some pathogens ( 2 , 5 ). These include the human intestinal and gastric pathogens Salmonella enterica ( 6 ) and Helicobacter pylori ( 7 ) and plant pathogens such as Xanthomonas species ( 8 , 9 ). Despite its importance in bacterial iron acquisition, the evolution and working mechanism of the Feo system remain poorly understood.…”

Section: Introductionmentioning

confidence: 99%

Disentangling the Evolutionary History of Feo, the Major Ferrous Iron Transport System in Bacteria

Gómez-Garzón

Barrick

Payne

2022

mBio

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Section: Introductionmentioning

confidence: 99%

Disentangling the Evolutionary History of Feo, the Major Ferrous Iron Transport System in Bacteria

Gómez-Garzón

Barrick

Payne

2022

mBio

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“…The organization of these three bfeA -like genes upstream of xss is strikingly similar to what was observed in X. citri subsp. citri ( 62 ) and X. oryzae pv oryzae ( 42 ). Wang et al ( 42 ) named the genes bfeA , bfeA2 , and bfeA3 and reported that mutating bfeA alone ended up in a reduced-virulence phenotype in planta .…”

Section: Resultsmentioning

confidence: 99%

A Comprehensive Overview of the Genes and Functions Required for Lettuce Infection by the Hemibiotrophic Phytopathogen Xanthomonas hortorum pv. vitians

et al. 2022

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Xanthomonas hortorum was recently the subject of renewed interest, as several studies highlighted that its members were responsible for diseases in a wide range of plant species, including crops of agricultural relevance (e.g., tomato and carrot). Among X. hortorum variants, X. hortorum pv. vitians is a reemerging foliar hemibiotrophic phytopathogen responsible for severe outbreaks of bacterial leaf spot of lettuce all around the world.

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“…animalis, we identified several gene clusters that are highly characteristic of this organism, the most prominent of which encodes the high affinity ferrous iron transport system FeoA/B. Orthologs of the FeoAB transporter are crucial for virulence in a variety of organisms, including the oral pathobiont P. gingivalis (27,28) as well as other heavily studied animal and plant pathogens like Salmonella enterica, Helicobacter pylori, and Xanthomonas species (29)(30)(31)(32). It is conceivable that in addition to the core collection of irontransport genes encoded by oral fusobacteria (Table S8), the additional high affinity FeoAB iron transporter could provide a specific growth advantage to Fn.…”

Section: Discussionmentioning

confidence: 99%

The prevalence ofFusobacterium nucleatumsubspecies in the oral cavity stratifies by local health status

Krieger,

AbdelRahman,

Choi

et al. 2023

Preprint

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The ubiquitous inflammophilic pathobiont Fusobacterium nucleatum is widely recognized for its strong association with a variety of human dysbiotic diseases such as periodontitis and oral/extraoral abscesses, as well as multiple types of cancer. F. nucleatum is currently subdivided into four subspecies: F. nucleatum subspecies nucleatum (Fn. nucleatum), animalis (Fn. animalis), polymorphum (Fn. polymorphum), and vincentii/fusiforme (Fn. vincentii). Although these subspecies have been historically considered as functionally interchangeable in the oral cavity, direct clinical evidence is largely lacking for this assertion. Consequently, we assembled a collection of oral clinical specimens to determine whether F. nucleatum subspecies prevalence in the oral cavity stratifies by local oral health status. Patient-matched clinical specimens of both disease-free dental plaque and odontogenic abscess were analyzed with newly developed culture-dependent and culture-independent approaches using 44 and 60 oral biofilm/tooth abscess paired specimens, respectively. Most oral cavities were found to simultaneously harbor multiple F. nucleatum subspecies, with a greater diversity present within dental plaque compared to abscesses. In dental plaque, Fn. polymorphum is clearly the dominant organism, but this changes dramatically within odontogenic abscesses where Fn. animalis is heavily favored over all other fusobacteria. Surprisingly, the most commonly studied F. nucleatum subspecies, Fn. nucleatum, is only a minor constituent in the oral cavity. To gain further insights into the genetic basis for these phenotypes, we subsequently performed pangenome, phylogenetic, and functional enrichment analyses of oral fusobacterial genomes using the Anvi'o platform, which revealed significant genotypic distinctions among F. nucleatum subspecies. Accordingly, our results strongly support a taxonomic reassignment of each F. nucleatum subspecies into distinct Fusobacterium species. Of these, Fn. animalis should be considered as the most clinically relevant at sites of active inflammation, despite being among the least characterized oral fusobacteria.

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Genetic and structural determinants on iron assimilation pathways in the plant pathogen Xanthomonas citri subsp. citri and Xanthomonas sp.

Cited by 7 publications

References 69 publications

Disentangling the Evolutionary History of Feo, the Major Ferrous Iron Transport System in Bacteria

Disentangling the Evolutionary History of Feo, the Major Ferrous Iron Transport System in Bacteria

A Comprehensive Overview of the Genes and Functions Required for Lettuce Infection by the Hemibiotrophic Phytopathogen Xanthomonas hortorum pv. vitians

The prevalence ofFusobacterium nucleatumsubspecies in the oral cavity stratifies by local health status

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