Proposal of 'Candidatus Frankia alpina', the uncultured symbiont of Alnus alnobetula and A. incana that forms spore-containing nitrogen-fixing root nodules

Pozzi, A.; Herrera-Belaroussi, Aude; Schwob, Guillaume; Bautista-Guerrero, Hector H.; Béthencourt, Lorine; Fournier, Pascale; Dubost, Audrey; Abrouk, Danis; Normand, Philippe; Fernández, María P.

doi:10.1099/ijsem.0.004433

Cited by 17 publications

(9 citation statements)

References 46 publications

(70 reference statements)

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“…Cluster 1 contains as-yet-uncultured Frankia microsymbionts, which are characterised by profuse sporulation within nodules tissues (Sp + types; Schwintzer, 1990 ), and a very higher proportion of cluster 2 strains are as-yet-uncultured. The Candidatus status has been used to accommodate some of these uncultured Frankia which were defined based on genome sequences ( Persson et al, 2011 , 2015 ; Nguyen et al, 2016 , 2019 ; Normand et al, 2017 ; Herrera-Belaroussi et al, 2020 ; Pozzi et al, 2020 ; Berckx et al, 2022 ). Two strains from cluster 2 have been successfully cultivated following a dual approach consisting of comparative genomics and direct physiological assay on nodule tissues ( Gtari et al, 2015 ; Gueddou et al, 2019 ).…”

Section: Resultsmentioning

confidence: 99%

“…Cluster 4 includes Frankia asymbiotica ( Nouioui et al, 2017c ), Frankia inefficax ( Nouioui et al, 2017a ), and Frankia saprophytica ( Nouioui et al, 2018a ). Additionally, four candidate species are also defined to accommodate uncultured taxa: Candidatus Frankia datiscae ( Persson et al, 2011 ) and Candidatus Frankia californiensis ( Normand et al, 2017 ) from cluster 2, as well as Candidatus Frankia alpina ( Pozzi et al, 2020 ) and Candidatus Frankia nodulisporulans ( Herrera-Belaroussi et al, 2020 ) from cluster 1.…”

Section: Introductionmentioning

confidence: 99%

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Taxogenomic status of phylogenetically distant Frankia clusters warrants their elevation to the rank of genus: A description of Protofrankia gen. nov., Parafrankia gen. nov., and Pseudofrankia gen. nov. as three novel genera within the family Frankiaceae

Gtari

2022

Front. Microbiol.

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The genus Frankia is at present the sole genus in the family Frankiaceae and encompasses filamentous, sporangia-forming actinomycetes principally isolated from root nodules of taxonomically disparate dicotyledonous hosts named actinorhizal plants. Multiple independent phylogenetic analyses agree with the division of the genus Frankia into four well-supported clusters. Within these clusters, Frankia strains are well defined based on host infectivity range, mode of infection, morphology, and their behaviour in culture. In this study, phylogenomics, overall genome related indices (OGRI), together with available data sets for phenotypic and host-plant ranges available for the type strains of Frankia species, were considered. The robustness and the deep radiation observed in Frankia at the subgeneric level, fulfilling the primary principle of phylogenetic systematics, were strengthened by establishing genome criteria for new genus demarcation boundaries. Therefore, the taxonomic elevation of the Frankia clusters to the rank of the genus is proposed. The genus Frankia should be revised to encompass cluster 1 species only and three novel genera, Protofrankia gen. nov., Parafrankia gen. nov., and Pseudofrankia gen. nov., are proposed to accommodate clusters 2, 3, and 4 species, respectively. New combinations for validly named species are also provided.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Taxogenomic status of phylogenetically distant Frankia clusters warrants their elevation to the rank of genus: A description of Protofrankia gen. nov., Parafrankia gen. nov., and Pseudofrankia gen. nov. as three novel genera within the family Frankiaceae

Gtari

2022

Front. Microbiol.

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“…This means that the production of isocitrate will inevitably lead to the synthesis of 2-oxoglutarate (2-OG). Intriguingly, the icl gene also seemed to be missing in cluster-1 strains that could never be cultured, such as Candidatus Frankia nodulisporulans or Candidatus Frankia alpina (Pozzi et al , 2020; Herrera-Belaroussi et al , 2020). Thus, the lack of icl could be a common feature for those Frankia strains which only have a short phase of saprotrophic growth, and mostly rely on a host plant to support their growth.…”

Section: Resultsmentioning

confidence: 99%

Gene losses resulting in specialized metabolism in the earliest divergent symbiotic Frankia clade can be linked to its low saprotrophic capabilities

Berckx

Nguyen

Hilker

et al. 2022

Preprint

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SummaryFrankia cluster-2 are diazotrophs that engage in root nodule symbiosis with host plants of the Cucurbitales and the Rosales. They are rarely found in the soil in the absence of their hosts. Previous studies have shown that an assimilated nitrogen source, presumable arginine, is exported to the host in nodules of Datisca glomerata (Cucurbitales), but not in the nodules of Ceanothus thyrsiflorus (Rosales). To investigate if an assimilated nitrogen form is commonly exported by cluster-2 strains, and which nitrogen source would then be exported to C. thyrsiflorus, gene expression levels, metabolite profiles and enzyme activities were analysed.We found that the export of assimilated nitrogen in symbiosis is a common feature for Frankia cluster-2 strains, but which source is host-plant dependent. We also identified several gene losses.The ammonium assimilation via the GS/GOGAT cycle for export to the host, entails a high demand of 2-oxoglutarate from the TCA cycle. This specialised metabolism seems to have led to genome reduction: we show that Frankia cluster-2 strains have lost the glyoxylate shunt and succinate semialdehyde dehydrogenase, leading to a linearization of the TCA cycle. This could explain the low saprotrophic potential of Frankia cluster-2.

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“…Cluster 1c with Casuarina-infective strains remains at the root of this cluster with several distinguishing features such as the lack of vesicles in nodules, a host-derived hemoglobin protection against oxygen and a distinct host range [6]. Alnus-infective symbiotic strains have been described initially on the basis of DNA/DNA homology as quite close to one another [14] but the full extent of diversity has slowly emerged with studies targeting new cultured strains and uncultured frankiae from specific environments [38,[42][43][44][45][46][47].…”

Section: Discussionmentioning

confidence: 99%

Draft Genomes of Symbiotic Frankia Strains AgB32 and AgKG'84/4 from Root Nodules of Alnus Glutinosa growing under Contrasted Environmental Conditions

Normand¹,

Pujić²,

Abrouk³

et al. 2022

J. Genomics

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The genomes of two nitrogen-fixing Frankia strains, AgB32 and AgKG'84/4, were isolated from spore-containing (spore+) and spore-free (spore-) root nodules of Alnus glutinosa , but they did not sporulate upon reinfection. The two strains are described as representatives of two novel candidate species . Phylogenomic and ANI analyses indicate that each strain represents a novel species within cluster 1, with genome sizes of 6.3 and 6.7 Mb smaller than or similar to those of other cultivated Alnus -infective cluster 1 strains. Genes essential for nitrogen-fixation, clusters of orthologous genes, secondary metabolite clusters and transcriptional regulators analyzed by comparative genomic analyses were typical of those from Alnus -infective cluster 1 cultivated strains in both genomes. Compared to other cultivated Alnus -infective strains with large genomes, those of AgB32 and AgKG'84/4 had lost 380 or 409 genes, among which one hup cluster, one shc gene and the gvp cluster, which indicates genome erosion is taking place in these two strains.

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Proposal of 'Candidatus Frankia alpina', the uncultured symbiont of Alnus alnobetula and A. incana that forms spore-containing nitrogen-fixing root nodules

Cited by 17 publications

References 46 publications

Taxogenomic status of phylogenetically distant Frankia clusters warrants their elevation to the rank of genus: A description of Protofrankia gen. nov., Parafrankia gen. nov., and Pseudofrankia gen. nov. as three novel genera within the family Frankiaceae

Taxogenomic status of phylogenetically distant Frankia clusters warrants their elevation to the rank of genus: A description of Protofrankia gen. nov., Parafrankia gen. nov., and Pseudofrankia gen. nov. as three novel genera within the family Frankiaceae

Gene losses resulting in specialized metabolism in the earliest divergent symbiotic Frankia clade can be linked to its low saprotrophic capabilities

Draft Genomes of Symbiotic Frankia Strains AgB32 and AgKG'84/4 from Root Nodules of Alnus Glutinosa growing under Contrasted Environmental Conditions

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