Your search keyword '"Aoki, Takayuki"' showing total 18 results

1. No to Neocosmospora : Phylogenomic and Practical Reasons for Continued Inclusion of the Fusarium solani Species Complex in the Genus Fusarium .

Author

O'Donnell K, Al-Hatmi AMS, Aoki T, Brankovics B, Cano-Lira JF, Coleman JJ, de Hoog GS, Di Pietro A, Frandsen RJN, Geiser DM, Gibas CFC, Guarro J, Kim HS, Kistler HC, Laraba I, Leslie JF, López-Berges MS, Lysøe E, Meis JF, Monod M, Proctor RH, Rep M, Ruiz-Roldán C, Šišić A, Stajich JE, Steenkamp ET, Summerell BA, van der Lee TAJ, van Diepeningen AD, Verweij PE, Waalwijk C, Ward TJ, Wickes BL, Wiederhold NP, Wingfield MJ, Zhang N, and Zhang SX

Subjects

Antifungal Agents pharmacology, Fusarium drug effects, Fusarium classification, Phylogeny

Abstract

This article is to alert medical mycologists and infectious disease specialists of recent name changes of medically important species of the filamentous mold Fusarium Fusarium species can cause localized and life-threating infections in humans. Of the 70 Fusarium species that have been reported to cause infections, close to one-third are members of the Fusarium solani species complex (FSSC), and they collectively account for approximately two-thirds of all reported Fusarium infections. Many of these species were recently given scientific names for the first time by a research group in the Netherlands, but they were misplaced in the genus Neocosmospora In this paper, we present genetic arguments that strongly support inclusion of the FSSC in Fusarium There are potentially serious consequences associated with using the name Neocosmospora for Fusarium species because clinicians need to be aware that fusaria are broadly resistant to the spectrum of antifungals that are currently available.

Published

2020

2. Discordant phylogenies suggest repeated host shifts in the Fusarium-Euwallacea ambrosia beetle mutualism.

Author

O'Donnell K, Sink S, Libeskind-Hadas R, Hulcr J, Kasson MT, Ploetz RC, Konkol JL, Ploetz JN, Carrillo D, Campbell A, Duncan RE, Liyanage PN, Eskalen A, Na F, Geiser DM, Bateman C, Freeman S, Mendel Z, Sharon M, Aoki T, Cossé AA, and Rooney AP

Subjects

Animals, Coleoptera classification, Evolution, Molecular, Female, Genes, Fungal, Genes, Insect, Genetic Variation, Coleoptera genetics, Coleoptera microbiology, Fusarium classification, Fusarium genetics, Phylogeny, Symbiosis

Abstract

The mutualism between xyleborine beetles in the genus Euwallacea (Coleoptera: Curculionidae: Scolytinae) and members of the Ambrosia Fusarium Clade (AFC) represents one of 11 known evolutionary origins of fungiculture by ambrosia beetles. Female Euwallacea beetles transport fusarial symbionts in paired mandibular mycangia from their natal gallery to woody hosts where they are cultivated in galleries as a source of food. Native to Asia, several exotic Euwallacea species were introduced into the United States and Israel within the past two decades and they now threaten urban landscapes, forests and avocado production. To assess species limits and to date the evolutionary diversification of the mutualists, we reconstructed the evolutionary histories of key representatives of the Fusarium and Euwallacea clades using maximum parsimony and maximum likelihood methods. Twelve species-level lineages, termed AF 1-12, were identified within the monophyletic AFC and seven among the Fusarium-farming Euwallacea. Bayesian diversification-time estimates placed the origin of the Euwallacea-Fusarium mutualism near the Oligocene-Miocene boundary ∼19-24 Mya. Most Euwallacea spp. appear to be associated with one species of Fusarium, but two species farmed two closely related fusaria. Euwallacea sp. #2 in Miami-Dade County, Florida cultivated Fusarium spp. AF-6 and AF-8 on avocado, and Euwallacea sp. #4 farmed Fusarium ambrosium AF-1 and Fusarium sp. AF-11 on Chinese tea in Sri Lanka. Cophylogenetic analyses indicated that the Euwallacea and Fusarium phylogenies were largely incongruent, apparently due to the beetles switching fusarial symbionts (i.e., host shifts) at least five times during the evolution of this mutualism. Three cospeciation events between Euwallacea and their AFC symbionts were detected, but randomization tests failed to reject the null hypothesis that the putative parallel cladogenesis is a stochastic pattern. Lastly, two collections of Euwallacea sp. #2 from Miami-Dade County, Florida shared an identical cytochrome oxidase subunit 1 (CO1) allele with Euwallacea validus, suggesting introgressive hybridization between these species and/or pseudogenous nature of this marker. Results of the present study highlight the importance of understanding the potential for and frequency of host-switching between Euwallacea and members of the AFC, and that these shifts may bring together more aggressive and virulent combinations of these invasive mutualists., (Published by Elsevier Inc.)

Published

2015

3. Phylogenetic analyses of RPB1 and RPB2 support a middle Cretaceous origin for a clade comprising all agriculturally and medically important fusaria.

Author

O'Donnell K, Rooney AP, Proctor RH, Brown DW, McCormick SP, Ward TJ, Frandsen RJ, Lysøe E, Rehner SA, Aoki T, Robert VA, Crous PW, Groenewald JZ, Kang S, and Geiser DM

Subjects

Base Sequence, DNA-Directed DNA Polymerase, Evolution, Molecular, Fusarium classification, Fusarium pathogenicity, Humans, Protein Subunits genetics, DNA Polymerase I genetics, DNA Polymerase II genetics, Fusarium genetics, Phylogeny

Abstract

Fusarium (Hypocreales, Nectriaceae) is one of the most economically important and systematically challenging groups of mycotoxigenic phytopathogens and emergent human pathogens. We conducted maximum likelihood (ML), maximum parsimony (MP) and Bayesian (B) analyses on partial DNA-directed RNA polymerase II largest (RPB1) and second largest subunit (RPB2) nucleotide sequences of 93 fusaria to infer the first comprehensive and well-supported phylogenetic hypothesis of evolutionary relationships within the genus and 20 of its near relatives. Our analyses revealed that Cylindrocarpon formed a basal monophyletic sister to a 'terminal Fusarium clade' (TFC) comprising 20 strongly supported species complexes and nine monotypic lineages, which we provisionally recognize as Fusarium (hypothesis F1). The basal-most divergences within the TFC were only significantly supported by Bayesian posterior probabilities (B-PP 0.99-1). An internode of the remaining TFC, however, was strongly supported by MP and ML bootstrapping and B-PP (hypothesis F2). Analysis of seven Fusarium genome sequences and Southern analysis of fusaria elucidated the distribution of genes required for synthesis of 26 families of secondary metabolites within the phylogenetic framework. Diversification time estimates date the origin of the TFC to the middle Cretaceous 91.3 million years ago. We also dated the origin of several agriculturally important secondary metabolites as well as the lineage responsible for Fusarium head blight of cereals. Dating of several plant-associated species complexes suggests their evolution may have been driven by angiosperm diversification during the Miocene. Our results support two competing hypotheses for the circumscription of Fusarium and provide a framework for future comparative phylogenetic and genomic analyses of this agronomically and medically important genus., (Published by Elsevier Inc.)

Published

2013

4. Phylogenetic diversity of insecticolous fusaria inferred from multilocus DNA sequence data and their molecular identification via FUSARIUM-ID and Fusarium MLST.

Author

O'Donnell K, Humber RA, Geiser DM, Kang S, Park B, Robert VA, Crous PW, Johnston PR, Aoki T, Rooney AP, and Rehner SA

Subjects

Acari microbiology, Animals, Base Sequence, DNA, Fungal chemistry, DNA, Fungal genetics, Fusarium genetics, Genes, Fungal genetics, Genetic Loci genetics, Genotype, Molecular Sequence Data, Mycological Typing Techniques, Nematoda microbiology, Sequence Alignment, Fusarium classification, Genetic Variation genetics, Insecta microbiology, Multilocus Sequence Typing methods, Phylogeny, Soil Microbiology

Abstract

We constructed several multilocus DNA sequence datasets to assess the phylogenetic diversity of insecticolous fusaria, especially focusing on those housed at the Agricultural Research Service Collection of Entomopathogenic Fungi (ARSEF), and to aid molecular identifications of unknowns via the FUSARIUM-ID and Fusarium MLST online databases and analysis packages. Analyses of a 190-taxon, two-locus dataset, which included 159 isolates from insects, indicated that: (i) insect-associated fusaria were nested within 10 species complexes spanning the phylogenetic breadth of Fusarium, (ii) novel, putatively unnamed insecticolous species were nested within 8/10 species complexes and (iii) Latin binomials could be applied with confidence to only 18/58 phylogenetically distinct fusaria associated with pest insects. Phylogenetic analyses of an 82-taxon, three-locus dataset nearly fully resolved evolutionary relationships among the 10 clades containing insecticolous fusaria. Multilocus typing of isolates within four species complexes identified surprisingly high genetic diversity in that 63/65 of the fusaria typed represented newly discovered haplotypes. The DNA sequence data, together with corrected ABI sequence chromatograms and alignments, have been uploaded to the following websites dedicated to identifying fusaria: FUSARIUM-ID (http://isolate.fusariumdb.org) at Pennsylvania State University's Department of Plant Pathology and Fusarium MLST (http://www.cbs.knaw.nl/fusarium) at the Centraalbureau voor Schimmelcultures (CBS-KNAW) Fungal Biodiversity Center.

Published

2012

5. Novel Fusarium head blight pathogens from Nepal and Louisiana revealed by multilocus genealogical concordance.

Author

Sarver BA, Ward TJ, Gale LR, Broz K, Kistler HC, Aoki T, Nicholson P, Carter J, and O'Donnell K

Subjects

Bayes Theorem, DNA, Fungal analysis, Evolution, Molecular, Fusarium genetics, Fusarium metabolism, Genotype, Louisiana, Molecular Sequence Data, Mycological Typing Techniques, Nepal, North America, Fusarium classification, Phylogeny, Plant Diseases microbiology, Trichothecenes metabolism

Abstract

This study was conducted to assess evolutionary relationships, species diversity and trichothecene toxin potential of five Fusarium graminearum complex (FGSC) isolates identified as genetically novel during prior Fusarium head blight (FHB) surveys in Nepal and Louisiana. Results of a multilocus genotyping (MLGT) assay for B-trichothecene species determination indicated these isolates might represent novel species within the FGSC. GCPSR-based phylogenetic analyses of a 12-gene dataset, comprising portions of seven loci totaling 13.1 kb of aligned DNA sequence data, provided strong support for the genealogical exclusivity of the Nepalese and Louisianan isolates. Accordingly, both species are formally recognized herein as novel FGSC species. Fusarium nepalense was resolved as the sister lineage of Fusarium ussurianum+Fusarium asiaticum within an Asian subclade of the FGSC. Fusarium louisianense was strongly supported as a reciprocally monophyletic sister of Fusarium gerlachii+F. graminearum, suggesting that this subclade might be endemic to North America. Multilocus Bayesian species tree analyses augment these results and provide evidence for a distinct lineage within F. graminearum predominately from the Gulf Coast of Louisiana. As predicted by the MLGT assay, mycotoxin analyses demonstrated that F. nepalense and F. louisianense could produce 15ADON and nivalenol, respectively, in planta. In addition, both species were only able to induce mild FHB symptoms on wheat in pathogenicity experiments., (Published by Elsevier Inc.)

Published

2011

6. Fusarium sibiricum sp. nov, a novel type A trichothecene-producing Fusarium from northern Asia closely related to F. sporotrichioides and F. langsethiae.

Author

Yli-Mattila T, Ward TJ, O'Donnell K, Proctor RH, Burkin AA, Kononenko GP, Gavrilova OP, Aoki T, McCormick SP, and Gagkaeva TY

Subjects

DNA, Fungal genetics, DNA, Ribosomal Spacer genetics, Finland, Fusarium genetics, Fusarium isolation & purification, Fusarium metabolism, Polymerase Chain Reaction, Russia, Sequence Analysis, DNA, Siberia, Species Specificity, Fusarium classification, Phylogeny, T-2 Toxin biosynthesis

Abstract

Production of type A trichothecenes has been reported in the closely related species Fusarium langsethiae and F. sporotrichioides. Here, we characterized a collection of Fusarium isolates from Siberia and the Russian Far East (hereafter Asian isolates) that produce high levels of the type A trichothecene T-2 toxin and are similar in morphology to the type A trichothecene-producing F. langsethiae, and to F. poae which often produces the type B trichothecene nivalenol. The Asian isolates possess unique macroscopic and microscopic characters and have a unique TG repeat in the nuclear ribosomal intergenic spacer (IGS rDNA) region. In Asian isolates, the TRI1-TRI16 locus, which determines type A versus type B trichothecene production in other species, is more similar in organization and sequence to the TRI1-TRI16 locus in F. sporotrichioides and F. langsethiae than to that in F. poae. Phylogenetic analysis of the TRI1 and TRI16 gene coding regions indicates that the genes in the Asian isolates are more closely related to those of F. sporotrichioides than F. langsethiae. Phylogenetic analysis of the beta-tubulin, translation elongation factor, RNA polymerase II and phosphate permease gene sequences resolved the Asian isolates into a well-supported sister lineage to F. sporotrichioides, with F. langsethiae forming a sister lineage to F. sporotrichioides and the Asian isolates. The Asian isolates are conspecific with Norwegian isolate IBT 9959 based on morphological and molecular analyses. In addition, the European F. langsethiae isolates from Finland and Russia were resolved into two distinct subgroups based on analyses of translation elongation factor and IGS rDNA sequences. Nucleotide polymorphisms within the IGS rDNA were used to design PCR primers that successfully differentiated the Asian isolates from F. sporotrichioides and F. langsethiae. Based on these data, we formally propose that the Asian isolates together with Norwegian isolate IBT 9959 comprise a novel phylogenetic species, F. sibiricum, while the two subgroups of F. langsethiae only represent intraspecific groups., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

7. Multilocus genotyping and molecular phylogenetics resolve a novel head blight pathogen within the Fusarium graminearum species complex from Ethiopia.

Author

O'Donnell K, Ward TJ, Aberra D, Kistler HC, Aoki T, Orwig N, Kimura M, Bjørnstad S, and Klemsdal SS

Subjects

DNA, Fungal genetics, Ethiopia, Evolution, Molecular, Fungal Proteins genetics, Fungal Proteins metabolism, Fusarium isolation & purification, Fusarium metabolism, Genotype, Molecular Sequence Data, Mycological Typing Techniques, Mycotoxins metabolism, Fusarium classification, Fusarium genetics, Phylogeny, Plant Diseases microbiology, Triticum microbiology

Abstract

A survey of Fusarium head blight (FHB)-contaminated wheat in Ethiopia recovered 31 isolates resembling members of the Fusarium graminearum species complex. Results of a multilocus genotyping (MLGT) assay for FHB species and trichothecene chemotype determination suggested that 22 of these isolates might represent a new species within the Fg complex. Phylogenetic analyses of multilocus DNA sequence data resolved the 22 Ethiopian isolates as a novel, phylogenetically distinct species. The new species also appears to be novel in that MLGT probe data and sequence analysis of both ends of the TRI-cluster identified 15ADON and NIV recombination blocks, documenting inter-chemotype recombination involving the chemotype-determining genes near the ends of the TRI-cluster. Results of pathogenicity experiments and analyses of trichothecene mycotoxins demonstrated that this novel Fg complex species could induce FHB on wheat and elaborate 15ADON in planta. Herein the FHB pathogen from Ethiopia is formally described as a novel species.

Published

2008

8. Phylogenomic Analysis of a 55.1-kb 19-Gene Dataset Resolves a Monophyletic Fusarium that Includes the Fusarium solani Species Complex.

Author

Geiser, David M, Al-Hatmi, Abdullah MS, Aoki, Takayuki, Arie, Tsutomu, Balmas, Virgilio, Barnes, Irene, Bergstrom, Gary C, Bhattacharyya, Madan K, Blomquist, Cheryl L, Bowden, Robert L, Brankovics, Balázs, Brown, Daren W, Burgess, Lester W, Bushley, Kathryn, Busman, Mark, Cano-Lira, José F, Carrillo, Joseph D, Chang, Hao-Xun, Chen, Chi-Yu, Chen, Wanquan, Chilvers, Martin, Chulze, Sofia, Coleman, Jeffrey J, Cuomo, Christina A, de Beer, Z Wilhelm, de Hoog, G Sybren, Del Castillo-Múnera, Johanna, Del Ponte, Emerson M, Diéguez-Uribeondo, Javier, Di Pietro, Antonio, Edel-Hermann, Véronique, Elmer, Wade H, Epstein, Lynn, Eskalen, Akif, Esposto, Maria Carmela, Everts, Kathryne L, Fernández-Pavía, Sylvia P, da Silva, Gilvan Ferreira, Foroud, Nora A, Fourie, Gerda, Frandsen, Rasmus JN, Freeman, Stanley, Freitag, Michael, Frenkel, Omer, Fuller, Kevin K, Gagkaeva, Tatiana, Gardiner, Donald M, Glenn, Anthony E, Gold, Scott E, Gordon, Thomas R, Gregory, Nancy F, Gryzenhout, Marieka, Guarro, Josep, Gugino, Beth K, Gutierrez, Santiago, Hammond-Kosack, Kim E, Harris, Linda J, Homa, Mónika, Hong, Cheng-Fang, Hornok, László, Huang, Jenn-Wen, Ilkit, Macit, Jacobs, Adriaana, Jacobs, Karin, Jiang, Cong, Jiménez-Gasco, María Del Mar, Kang, Seogchan, Kasson, Matthew T, Kazan, Kemal, Kennell, John C, Kim, Hye-Seon, Kistler, H Corby, Kuldau, Gretchen A, Kulik, Tomasz, Kurzai, Oliver, Laraba, Imane, Laurence, Matthew H, Lee, Theresa, Lee, Yin-Won, Lee, Yong-Hwan, Leslie, John F, Liew, Edward CY, Lofton, Lily W, Logrieco, Antonio F, López-Berges, Manuel S, Luque, Alicia G, Lysøe, Erik, Ma, Li-Jun, Marra, Robert E, Martin, Frank N, May, Sara R, McCormick, Susan P, McGee, Chyanna, Meis, Jacques F, Migheli, Quirico, Mohamed Nor, NMI, Monod, Michel, Moretti, Antonio, Mostert, Diane, and Mulè, Giuseppina

Subjects

Biological Sciences, Evolutionary Biology, Fusarium, Phylogeny, Plant Diseases, Plants, evolution, fungal pathogens, Microbiology, Plant Biology, Crop and Pasture Production, Plant Biology & Botany, Plant biology

Abstract

Scientific communication is facilitated by a data-driven, scientifically sound taxonomy that considers the end-user's needs and established successful practice. In 2013, the Fusarium community voiced near unanimous support for a concept of Fusarium that represented a clade comprising all agriculturally and clinically important Fusarium species, including the F. solani species complex (FSSC). Subsequently, this concept was challenged in 2015 by one research group who proposed dividing the genus Fusarium into seven genera, including the FSSC described as members of the genus Neocosmospora, with subsequent justification in 2018 based on claims that the 2013 concept of Fusarium is polyphyletic. Here, we test this claim and provide a phylogeny based on exonic nucleotide sequences of 19 orthologous protein-coding genes that strongly support the monophyly of Fusarium including the FSSC. We reassert the practical and scientific argument in support of a genus Fusarium that includes the FSSC and several other basal lineages, consistent with the longstanding use of this name among plant pathologists, medical mycologists, quarantine officials, regulatory agencies, students, and researchers with a stake in its taxonomy. In recognition of this monophyly, 40 species described as genus Neocosmospora were recombined in genus Fusarium, and nine others were renamed Fusarium. Here the global Fusarium community voices strong support for the inclusion of the FSSC in Fusarium, as it remains the best scientific, nomenclatural, and practical taxonomic option available.

Published

2021

9. No to Neocosmospora: Phylogenomic and Practical Reasons for Continued Inclusion of the Fusarium solani Species Complex in the Genus Fusarium

Author

O’Donnell, Kerry, Al-Hatmi, Abdullah MS, Aoki, Takayuki, Brankovics, Balázs, Cano-Lira, José F, Coleman, Jeffrey J, de Hoog, G Sybren, Di Pietro, Antonio, Frandsen, Rasmus JN, Geiser, David M, Gibas, Connie FC, Guarro, Josep, Kim, Hye-Seon, Kistler, H Corby, Laraba, Imane, Leslie, John F, López-Berges, Manuel S, Lysøe, Erik, Meis, Jacques F, Monod, Michel, Proctor, Robert H, Rep, Martijn, Ruiz-Roldán, Carmen, Šišić, Adnan, Stajich, Jason E, Steenkamp, Emma T, Summerell, Brett A, van der Lee, Theo AJ, van Diepeningen, Anne D, Verweij, Paul E, Waalwijk, Cees, Ward, Todd J, Wickes, Brian L, Wiederhold, Nathan P, Wingfield, Michael J, Zhang, Ning, and Zhang, Sean X

Subjects

Microbiology, Biological Sciences, Infectious Diseases, Infection, Good Health and Well Being, Antifungal Agents, Fusarium, Phylogeny, clinical mycology, evolution, fungi, phylogenetics, taxonomy, Immunology

Abstract

This article is to alert medical mycologists and infectious disease specialists of recent name changes of medically important species of the filamentous mold FusariumFusarium species can cause localized and life-threating infections in humans. Of the 70 Fusarium species that have been reported to cause infections, close to one-third are members of the Fusarium solani species complex (FSSC), and they collectively account for approximately two-thirds of all reported Fusarium infections. Many of these species were recently given scientific names for the first time by a research group in the Netherlands, but they were misplaced in the genus Neocosmospora In this paper, we present genetic arguments that strongly support inclusion of the FSSC in Fusarium There are potentially serious consequences associated with using the name Neocosmospora for Fusarium species because clinicians need to be aware that fusaria are broadly resistant to the spectrum of antifungals that are currently available.

Published

2020

10. Phenotypic, molecular phylogenetic, and pathogenetic characterization of Fusarium crassistipitatum sp. nov., a novel soybean sudden death syndrome pathogen from Argentina and Brazil

Author

Aoki, Takayuki, Scandiani, María Mercedes, and O’Donnell, Kerry

Published

2012

11. Sudden death syndrome of soybean in South America is caused by four species of Fusarium: Fusarium brasiliense sp. nov., F. cuneirostrum sp. nov., F. tucumaniae, and F. virguliforme

Author

Aoki, Takayuki, O’Donnell, Kerry, and Scandiani, María Mercedes

Published

2005

12. Fusarium azukicola sp. nov., an exotic azuki bean root-rot pathogen in Hokkaido, Japan.

Author

Aoki, Takayuki, Tanaka, Fumio, Suga, Haruhisa, Hyakumachi, Mitsuro, Scandiani, María Mercedes, and O'Donnell, Kerry

Subjects

*SOYBEAN, *KIDNEY bean, *TAXONOMY, *PATHOGENIC microorganisms

Abstract

We report on the phenotypic, molecular phylogenetic and pathogenic characterization of a novel azuki bean (Vigna angularis) root-rot (BRR) pathogen from Hokkaido, Japan, which formally is described herein as Fusarium azukicola. This species can be distinguished phenotypically from the other Phaseolus/Vigna BRR and soybean sudden-death syndrome (SDS) pathogens by the production of wider and longer four-septate conidia cultured on SNA. Molecular phylogenetic analyses of four anonymous intergenic loci, a portion of the translation elongation factor (EF-1α) gene and the nuclear ribosomal intergenic spacer region (IGS rDNA) strongly support the genealogical exclusivity of F. azukicola with respect to the other soybean SDS and BRR pathogens within Clade 2 of the F. solani species complex (FSSC). Evolutionary relationships of F. azukicola to other members of the SDS-BRR clade, however, are unresolved by phylogenetic analyses of the individual and combined datasets, with the exception of the IGS rDNA partition, which strongly supports it as a sister of the soybean SDS pathogen F. brasiliense. A multilocus genotyping assay is updated to include primer probes that successfully distinguish F. azukicola from the other soybean SDS and BRR pathogens. Results of a pathogenicity experiment reveal that the F. azukicola isolates are able to induce root-rot symptoms on azuki bean, mung bean (Vigna radiata), kidney bean (Phaseolus vulgaris) and soybean (Glycine max), as well as typical SDS foliar symptoms on soybean. Our hypothesis is that F. azukicola evolved in South America and was introduced to Hokkaido, Japan, on azuki bean but its possible route of introduction remains unknown. [ABSTRACT FROM AUTHOR]

Published

2012

13. Sudden-death syndrome of soybean is caused by two morphologically and phylogenetically distinct species within the Fusarium solani species complex-F. virguliforme in North America and F. tucumani...

Author

Aoki, Takayuki, O'Donnell, Kerry, Homma, Yoshihisa, and Lattanzi, Alfredo R.

Subjects

*SOYBEAN, *PHYLOGENY, *GENES, *DNA

Abstract

Soybean sudden-death syndrome has become a serious constraint to commercial production of this crop in North and South America during the past decade. To assess whether the primary etiological agent is panmictic in both hemispheres, morphological and molecular phylogenetic analyses were conducted on strains selected to represent the known pathogenic and genetic diversity of this pathogen. Maximum-parsimony analysis of DNA sequences from the nuclear ribosomal intergenic spacer region and the single copy nuclear gene translation elongation factor 1-α, together with detailed morphological comparisons of conidial features, indicate that SDS of soybean in North and South America is caused by two phylogenetically and morphologically distinct species. Fusarium virguliforme sp. nov., formally known as F. solani f. sp. glycines, is described and illustrated for the SDS pathogen in North America, and F. tucumaniae sp. nov. is proposed for the South American pathogen. The molecular phylogenetic results challenge the forma specialis naming system because pathogenicity to soybean might have evolved convergently in F. tucumaniae and F. virguli forme. Phylogenetic evidence indicates the two SDS pathogens do not share a most recent common ancestor, since F. tucumaniae was resolved as a sister to a pathogen of Phaseolus vulgaris, F. phaseoli comb. nov. All three pathogens appear to have evolutionary origins in the southern hemisphere since they are deeply nested within a South American clade of the F. solani species complex. [ABSTRACT FROM AUTHOR]

Published

2003

14. Global molecular surveillance reveals novel Fusarium head blight species and trichothecene toxin diversity

Author

Starkey, David E., Ward, Todd J., Aoki, Takayuki, Gale, Liane R., Kistler, H. Corby, Geiser, David M., Suga, Haruhisa, Tóth, Beáta, Varga, János, and O’Donnell, Kerry

Subjects

*FUSARIUM, *FUSARIUM oxysporum, *TOXINS, *GENES

Abstract

Abstract: To expand our knowledge of Fusarium head blight (FHB) pathogen and trichothecene toxin diversity, a global collection of 2100 isolates was screened for novel genetic variation, resulting in the identification of 16 phylogenetically divergent FHB isolates. The affinities and taxonomic status of these novel isolates were evaluated via phylogenetic analyses of multilocus DNA sequence data (13 genes; 16.3kb/strain) together with analyses of their morphology, pathogenicity to wheat, and trichothecene toxin potential. Based on the results of these analyses, we formally describe two novel species (Fusarium vorosii and Fusarium gerlachii) within the Fusarium graminearum species complex (Fg complex), and provide the first published report of Fg complex isolates with either a nivalenol or 3-acetyldeoxynivalenol chemotype within the U.S. In addition, we describe a highly divergent population of F. graminearum from the Gulf Coast of the U.S., and divergent isolates of F. acaciae-mearnsii from Australia and South Africa. [Copyright &y& Elsevier]

Published

2007

15. Phylogenetic analyses of RPB1 and RPB2 support a middle Cretaceous origin for a clade comprising all agriculturally and medically important fusaria

Author

O’Donnell, Kerry, Rooney, Alejandro P., Proctor, Robert H., Brown, Daren W., McCormick, Susan P., Ward, Todd J., Frandsen, Rasmus J.N., Lysøe, Erik, Rehner, Stephen A., Aoki, Takayuki, Robert, Vincent A.R.G., Crous, Pedro W., Groenewald, Johannes Z., Kang, Seogchan, and Geiser, David M.

Subjects

*PHYLOGENY, *RNA polymerases, *CRETACEOUS Period, *FUSARIUM, *TOXIGENIC fungi, *PHYTOPATHOGENIC fungi

Abstract

Abstract: Fusarium (Hypocreales, Nectriaceae) is one of the most economically important and systematically challenging groups of mycotoxigenic phytopathogens and emergent human pathogens. We conducted maximum likelihood (ML), maximum parsimony (MP) and Bayesian (B) analyses on partial DNA-directed RNA polymerase II largest (RPB1) and second largest subunit (RPB2) nucleotide sequences of 93 fusaria to infer the first comprehensive and well-supported phylogenetic hypothesis of evolutionary relationships within the genus and 20 of its near relatives. Our analyses revealed that Cylindrocarpon formed a basal monophyletic sister to a ‘terminal Fusarium clade’ (TFC) comprising 20 strongly supported species complexes and nine monotypic lineages, which we provisionally recognize as Fusarium (hypothesis F1). The basal-most divergences within the TFC were only significantly supported by Bayesian posterior probabilities (B-PP 0.99–1). An internode of the remaining TFC, however, was strongly supported by MP and ML bootstrapping and B-PP (hypothesis F2). Analysis of seven Fusarium genome sequences and Southern analysis of fusaria elucidated the distribution of genes required for synthesis of 26 families of secondary metabolites within the phylogenetic framework. Diversification time estimates date the origin of the TFC to the middle Cretaceous 91.3million years ago. We also dated the origin of several agriculturally important secondary metabolites as well as the lineage responsible for Fusarium head blight of cereals. Dating of several plant-associated species complexes suggests their evolution may have been driven by angiosperm diversification during the Miocene. Our results support two competing hypotheses for the circumscription of Fusarium and provide a framework for future comparative phylogenetic and genomic analyses of this agronomically and medically important genus. [Copyright &y& Elsevier]

Published

2013

16. Identification and Characterization of a Novel Etiological Agent of Mango Malformation Disease in Mexico, Fusarium mexicanum sp. nov.

Author

Otero-Colina, Gabriel, Rodriguez-Alvarado, Gerardo, Fernández-Pavía, Sylvia, Maymon, Marcel, Ploetz, Randy C., Aoki, Takayuki, O'Donnell, Kerry, and Freeman, Stanley

Subjects

*MANGO diseases, *FUSARIUM moniliforme, *GENEALOGY, *PHYLOGENY, *POLYMERASE chain reaction

Abstract

The primary objective of this study was to characterize Fusarium spp. associated with the economically devastating mango malformation disease (MMD) in Mexico. In all, 142 Fusarium strains were isolated from symptomatic mango inflorescences and vegetative tissues in eight geographically diverse Mexican states from 2002 through 2007. Initially, all the Mexican isolates were screened for genetic diversity using appolymerase chain reaction and random amplified polymorphic DNA markers and were grouped into seven distinct genotypes. Based on results of these analyses, evolutionary relationships and species limits of the genetically diverse MMD-associated Fusarium spp. were investigated using multilocus DNA sequence data and phylogenetic species recognition. Maximum parsimony analyses of a five-locus data set comprising 5.8 kb of aligned DNA sequence data indicated that at least nine phylogenetically distinct Fusarium spp. within the Gibberella fujikuroi pecies complex are associated with MMD, including one species within he African clade (Fusarium pseudocircinatum), two species within the Asian clade (E mangiferae and E proliferatum), and at least six species within the American clade (F. sterilihyphosum and five undescribe Fasarium spp.). Molecular phylogenetic analyses indicate that a novel genealogically exclusive lineage within the American clade was the predominant MMD associate in Mexico. This new Fusarium sp. caused MMD and could be distinguished from all other known species morphoogically by the production of mostly sterile, coiled hyphae which are ypically associated with sporodochial conidiophores together with unbranched or sparsely branched aerial conidiophores. Koch's postulates were completed for isolates of the new species on nucellar seedlings of mango cv. Ataulfo. This pathogen is formally described herein as F. mexicanum. [ABSTRACT FROM AUTHOR]

Published

2010

17. Multilocus genotyping and molecular phylogenetics resolve a novel head blight pathogen within the Fusarium graminearum species complex from Ethiopia

Author

O’Donnell, Kerry, Ward, Todd J., Aberra, Dereje, Kistler, H. Corby, Aoki, Takayuki, Orwig, Nathane, Kimura, Makoto, Bjørnstad, Åsmund, and Klemsdal, Sonja S.

Subjects

*NUCLEOTIDE sequence, *NUCLEIC acids, *MYCOTOXICOSES, *FUSARIUM oxysporum

Abstract

Abstract: A survey of Fusarium head blight (FHB)-contaminated wheat in Ethiopia recovered 31 isolates resembling members of the Fusarium graminearum species complex. Results of a multilocus genotyping (MLGT) assay for FHB species and trichothecene chemotype determination suggested that 22 of these isolates might represent a new species within the Fg complex. Phylogenetic analyses of multilocus DNA sequence data resolved the 22 Ethiopian isolates as a novel, phylogenetically distinct species. The new species also appears to be novel in that MLGT probe data and sequence analysis of both ends of the TRI-cluster identified 15ADON and NIV recombination blocks, documenting inter-chemotype recombination involving the chemotype-determining genes near the ends of the TRI-cluster. Results of pathogenicity experiments and analyses of trichothecene mycotoxins demonstrated that this novel Fg complex species could induce FHB on wheat and elaborate 15ADON in planta. Herein the FHB pathogen from Ethiopia is formally described as a novel species. [Copyright &y& Elsevier]

Published

2008

18. Genealogical concordance between the mating type locus and seven other nuclear genes supports formal recognition of nine phylogenetically distinct species within the Fusarium graminearum clade

Author

O’Donnell, Kerry, Ward, Todd J., Geiser, David M., Corby Kistler, H., and Aoki, Takayuki

Subjects

*NUCLEOTIDE sequence, *GENES, *FUSARIUM, *PHYLOGENY

Abstract

Species limits were investigated within the Fusarium graminearum clade (Fg clade) through phylogenetic analyses of DNA sequences from portions of 11 nuclear genes including the mating-type (MAT) locus. Nine phylogenetically distinct species were resolved within the Fg clade, and they all possess contiguous MAT1-1 and MAT1-2 idiomorphs consistent with a homothallic reproductive mode. In contrast, only one of the two MAT idiomorphs was found in five other species, four of which were putatively asexual, and the other was heterothallic. Molecular evolutionary analyses indicate the MAT genes are under strong purifying selection and that they are functionally constrained, even in species for which a sexual state is unknown. The phylogeny supports a monophyletic and apomorphic origin of homothallism within this clade. Morphological analyses demonstrate that a combination of conidial characters could be used to differentiate three species and three species pairs. Species rank is formally proposed for the eight unnamed species within the Fg clade using fixed nucleotide characters.Index Descriptors: Fusarium head blight; Mating-type; Histone H3; Homothallic; Heterothallic; Gene trees; Species trees; Species limits; Phylogeny; Reciprocal monophyly [Copyright &y& Elsevier]

Published

2004