Xanthomonas bonasiae sp. nov. and Xanthomonas youngii sp. nov., isolated from crown gall tissues.

The genus Xanthomonas contains a set of diverse bacterial strains, most of which are known for their pathogenicity on annual crops and fruit trees causing economically important plant diseases. Recently, five Xanthomonas strains were isolated from Agrobacterium-induced crown gall tissues of amaranth (Amaranthus sp.) and weeping fig (Ficus benjamina) plants in Iran. Phenotypic characteristics (i.e. biochemical tests and pathogenicity features) and whole genome sequence-based core-genome phylogeny followed by average nucleotide identity and digital DNA-DNA hybridization calculations suggested that these gall-associated strains belong to two new species within the genus Xanthomonas. In this study, we provide a formal species description for these new species where Xanthomonas bonasiae sp. nov. is proposed for the strains isolated from weeping fig with FX4T (=CFBP 8703T=DSM 112530T) as type strain. The name Xanthomonas youngii sp. nov. is proposed for the strains isolated from amaranth with AmX2T (=CFBP 8902T=DSM 112529T) as type strain.

Phenotypic and Molecular-Phylogenetic Analyses Reveal Distinct Features of Crown Gall-Associated Xanthomonas Strains.

In summer 2019, widespread occurrence of crown gall disease caused by Agrobacterium spp. was observed on commercially grown ornamental plants in southern Iran. Beside agrobacteria, pale yellow-pigmented Gram-negative strains resembling the members of Xanthomonas were also associated with crown gall tissues on weeping fig (Ficus benjamina) and Amaranthus sp. plants. The purpose of the present study was to characterize the crown gall-associated Xanthomonas strains using plant inoculation assays, molecular-phylogenetic analyses, and comparative genomics approaches. Pathogenicity tests showed that the Xanthomonas strains did not induce disease symptoms on their host of isolation. However, the strains induced hypersensitive reaction on tobacco, geranium, melon, squash, and tomato leaves via leaf infiltration. Multilocus sequence analysis suggested that the strains belong to clade IA of Xanthomonas, phylogenetically close to Xanthomonas translucens, X. theicola, and X. hyacinthi. Average nucleotide identity and digital DNA-DNA hybridization values between the whole-genome sequences of the strains isolated in this study and reference Xanthomonas strains are far below the accepted thresholds for the definition of prokaryotic species, signifying that these strains could be defined as two new species within clade IA of Xanthomonas. Comparative genomics showed that the strains isolated from crown gall tissues are genetically distinct from X. translucens, as almost all the type III secretion system genes and type III effectors are lacking in the former group. The data obtained in this study provide novel insight into the breadth of genetic diversity of crown gall-associated bacteria and pave the way for research on gall-associated Xanthomonas-plant interactions. IMPORTANCE Tumorigenic agrobacteria-members of the bacterial family Rhizobiaceae-cause crown gall and hairy root diseases on a broad range of plant species. These bacteria are responsible for economic losses in nurseries of important fruit trees and ornamental plants. The microclimate of crown gall and their accompanying microorganisms has rarely been studied for the microbial diversity and population dynamics of gall-associated bacteria. Here, we employed a series of biochemical tests, pathogenicity assays, and molecular-phylogenetic analyses, supplemented with comparative genomics, to elucidate the biological features, taxonomic position, and genomic repertories of five crown gall-associated Xanthomonas strains isolated from weeping fig and Amaranthus sp. plants in Iran. The strains investigated in this study induced hypersensitive reactions (HR) on geranium, melon, squash, tobacco, and tomato leaves, while they were nonpathogenic on their host of isolation. Phylogenetic analyses and whole-genome-sequence-based average nucleotide identity (ANI)/digital DNA-DNA hybridization (dDDH) calculations suggested that the Xanthomonas strains isolated from crown gall tissues belong to two taxonomically unique clades closely related to the clade IA species of the genus, i.e., X. translucens, X. hyacinthi, and X. theicola.

Taxonomic Refinement of Xanthomonas arboricola.

Xanthomonas arboricola comprises a number of economically important fruit tree pathogens classified within different pathovars. Dozens of nonpathogenic and taxonomically unvalidated strains are also designated as X. arboricola, leading to a complicated taxonomic status in the species. In this study, we have evaluated the whole-genome resources of all available Xanthomonas spp. strains designated as X. arboricola in the public databases to refine the members of the species based on DNA similarity indexes and core genome-based phylogeny. Our results show that, of the nine validly described pathovars within X. arboricola, pathotype strains of seven pathovars are taxonomically genuine, belonging to the core clade of the species regardless of their pathogenicity on the host of isolation (thus the validity of pathovar status). However, strains of X. arboricola pv. guizotiae and X. arboricola pv. populi do not belong to X. arboricola because of the low DNA similarities between the type strain of the species and the pathotype strains of these two pathovars. Thus, we propose to elevate the two pathovars to the rank of a species as X. guizotiae sp. nov. with the type strain CFBP 7408T and X. populina sp. nov. with the type strain CFBP 3123T. In addition, other mislabeled strains of X. arboricola were scattered within Xanthomonas spp. that belong to previously described species or represent novel species that await formal description.

Genomic Analyses of Rose Crown Gall-Associated Bacteria Revealed Two New Agrobacterium Species: Agrobacterium burrii sp. nov. and Agrobacterium shirazense sp. nov.

Agrobacterium tumefaciens species complex contains a set of diverse bacterial strains, most of which are well known for their pathogenicity on agricultural plants causing crown gall diseases. Members of A. tumefaciens species complex are classified into several taxonomically distinct lineages called "genomospecies" (13 genomospecies until early 2021). Recently, two genomospecies, G19 (strains RnrT, Rew, and Rnw) and G20 (strains OT33T and R13) infecting Rosa sp. plants in Iran, were described based on biochemical and molecular-phylogenetic data. Whole genome sequence-based core-genome phylogeny followed by average nucleotide identity (ANI) and digital DNA-DNA hybridization (dDDH) calculations performed in this study suggested that genomospecies G19 and G20 could be described as two novel and standalone species. In the phylogenetic tree, these two new genomospecies were clustered separately from other genomospecies/species of A. tumefaciens species complex. Moreover, both ANI and dDDH indices between the G19/G20 strains and other Rhizobiaceae members are clearly below the accepted thresholds for prokaryotic species description. Hence, Agrobacterium burrii sp. nov. is proposed to encompass the G19 strains, with RnrT = CFBP 8705T = DSM 112541T as type strain. Agrobacterium shirazense sp. nov. is also proposed to include G20 strains, with OT33T = CFBP 8901T = DSM 112540T as type strain.[Formula: see text] Copyright © 2022 The Author(s). This is an open access article distributed under the CC BY 4.0 International license.

Occurrence of Crown Gall Disease on Japanese Spindle (Euonymus japonicas var. Green Rocket) Caused by Agrobacterium rosae in Iran.

Crown gall disease caused by diverse Agrobacterium species is one of the main biotic constraints in the ornamental plants industry in Iran (Mafakheri et al. 2017). In August 2019, Japanese spindle (Euonymus japonicus var. Green Rocket) plants showing crown gall symptoms were observed in a commercial greenhouse in Tehran, Iran. Infected plants were characterized by a visible overgrowth on their stems and crown. Bacterial isolation from the gall tissues was performed on nutrient agar (NA) and 1A media as described by Moore et al. (2001). The six resulted bacterial strains (A.E1 to A.E6) were evaluated using PCR primer pair F8360/F8361 amplifying a 453 bp DNA fragment in recA gene and confirmed as Agrobacterium sp. (Shams et al. 2013). Pathogenicity of the strains was evaluated in two independent assays on Japanese spindle plantlets as well as 10-15 day old tomato (Solanum lycopersicum cv. Sunseed 6189) and sunflower (Helianthus annuus cv. Armavirski) plants in greenhouse conditions using the needle prick method as described previously (Mafakheri et al. 2019). The reference strain A. radiobacter ICMP 5856 and sterile distilled water were used as positive and negative controls, respectively. Crown gall symptoms appeared 20-25 days post inoculation on the Japanese spindle plantlets as well as tomato and sunflower plants inoculated with the strains isolated in this study, while the negative control plants remained asymptomatic. Koch's postulates were accomplished by re-isolating on NA medium and PCR-based identification of the inoculated strains from the symptomatic plants. The representative strain A.E1 was subjected to multilocus sequence analysis (MLSA) using the sequences of four housekeeping genes (i.e. atpD, gyrB, recA, and rpoB) as described previously (Mafakheri et al. 2019). MLSA results revealed that the strain A.E1 is phylogenetically closely related to A. rosae. The sequences were deposited into GenBank under the accession numbers MT007962 to MT007965 for atpD, gyrB, recA, and rpoB, respectively. Further, the strain A.E1 was subjected to whole genome sequencing using Illumina HiSeq X platform. DNA extraction was performed using NucleoSpin Microbial DNA kit (Macherey-Nagel, Germany), DNA libraries were obtained with Nextera XT DNA Library Prep Kit (Illumina, USA), and de novo sequence assembly was performed using SPAdes genome assembler. The resulting whole genome sequence was deposited into the GenBank database under the accession number JAFJZW000000000. Average nucleotide identity (ANI) and digital DNA-DNA hybridization (dDDH) values were calculated among all the type strains of Agrobacterium species/genomospecies using standard criteria as detailed previously (Osdaghi et al. 2020; Chen et al. 2021). The strain A.E1 had 97% ANI and 72% dDDH values with A. rosae strain NCPPB 1650, suggesting that the bacterial strains isolated from Japanese spindle in Iran belong to A. rosae. This is the first report of A. rosae causing crown gall disease on Japanese spindle in Iran. The new crown gall disease could negatively affect the ornamental shrub production industry in central Iran unless strict sanitary measures are taken into the account in the nurseries in these areas. Further nationwide surveys and samplings are warranted to elucidate the economic impact of the pathogen on ornamental plant industry in the country.

Phenotypically and Genotypically Heterogeneous Strains of Pseudomonas syringae Associated With Alfalfa Leaf Spot Disease in Iran.

In this study, we provide a polyphasic characterization of 18 Pseudomonas spp. strains associated with alfalfa leaf spot symptoms in Iran. All of the strains were pathogenic on alfalfa, although the aggressiveness and symptomology varied among the strains. All strains but one were pathogenic on broad bean, cucumber, honeydew, and zucchini, whereas only a fraction of the strains were pathogenic on sugar beet, tomato, and wheat. Syringomycin biosynthesis genes (syrB1 and syrP) were detected using the corresponding PCR primers in all of the strains isolated from alfalfa. Phylogenetic analyses using the sequences of four housekeeping genes (gapA, gltA, gyrB, and rpoD) revealed that all of the strains except one (Als34) belong to phylogroup 2b of P. syringae sensu lato, whereas strain Als34 placed within phylogroup 1 close to the type strain of P. syringae pv. apii. Among the phylogroup 2b strains, nine strains were phylogenetically close to the P. syringae pv. aptata clade, whereas the remainder were scattered among P. syringae pv. atrofaciens and P. syringae pv. syringae strains. Pathogenicity and host range assays of the bacterial strains evaluated in this study on a set of taxonomically diverse plant species did not allow us to assign a "pathovar" status to the alfalfa strains. However, these results provide novel insight into the host range and phylogenetic position of the alfalfa-pathogenic members of P. syringae sensu lato, and they reveal that phenotypically and genotypically heterogeneous strains of the pathogen cause bacterial leaf spot of alfalfa.

Two Novel Genomospecies in the Agrobacterium tumefaciens Species Complex Associated with Rose Crown Gall.

In this study, we explored the pathogenicity and phylogenetic position of Agrobacterium spp. strains isolated from crown gall tissues on annual, perennial, and ornamental plants in Iran. Of the 43 strains studied, 10 strains were identified as Allorhizobium vitis (formerly Agrobacterium vitis) using the species-specific primer pair PGF/PGR. Thirty-three remaining strains were studied using multilocus sequence analysis of four housekeeping genes (i.e., atpD, gyrB, recA, and rpoB), from which seven strains were identified as A. larrymoorei and one strain was identified as A. rubi (Rer); the remaining 25 strains were scattered within the A. tumefaciens species complex. Two strains were identified as genomospecies 1 (G1), seven strains were identified as A. radiobacter (G4), seven strains were identified as A. deltaense (G7), two strains were identified as A. nepotum (G14), and one strain was identified as "A. viscosum" (G15). The strains Rnr, Rnw, and Rew as well as the two strains OT33 and R13 all isolated from rose and the strain Ap1 isolated from apple were clustered in three atypical clades within the A. tumefaciens species complex. All but eight strains (i.e., Nec10, Ph38, Ph49, fic9, Fic72, R13, OT33, and Ap1) were pathogenic on tomato and sunflower seedlings in greenhouse conditions, whereas all but three strains (i.e., fic9, Fic72, and OT33) showed tumorigenicity on carrot root discs. The phylogenetic analysis and nucleotide diversity statistics suggested the existence of two novel genomospecies within the A. tumefaciens species complex, which we named "G19" and "G20." Hence, we propose the strains Rew, Rnw, and Rnr as the members of "G19" and the strains R13 and OT33 as the members of G20, whereas the phylogenetic status of the atypical strain Ap1 remains undetermined.

Antifungal activity of the essential oils of some medicinal plants against human and plant fungal pathogens.

The present study was conducted to assess the antifungal activity of essential oils of medicinal plants Mentha piperita (peppermint), Foeniculum vulgare, Satureja hortensis (Savory), Ferula asafoetida and Cuminum cyminum against Alternaria sp., Bipolaris sorokiniana and Acremonium sclerotigenum. The antifungal activity was evaluated by Broth Microdilution Method. Minimum Inhibitory Concentration (MICs) and Minimum Fungicidal Concentration (MFCs) of the essential oils were compared with Amphotricin B and Captan as standard drug. MIC values for all essential oils were between 1 to 8 mg/mL. MIC value of Fennel essential oil was comparable to MFC value obtained from fungicide Captan. Peppermint essential oil exhibited maximum inhibitory and fungicide activity in concentrations of 2 mg/ml and 4 mg/ml against Alternaria sp. The essential oil was more effective than Fennel against Bipolaris, but MFC values of both essential oils were 4 mg/ml. C. cyminum displayed less susceptibility against all of the fungi. Regarding our finding, peppermint and Fennel oil seem to be a promising solution to control plant diseases.