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2. 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, A.M., Aoki, T., Brankovics, B., Cano-Lira, J.F., Coleman, J.J., Hoog, G.S. de, Pietro, A. Di, Frandsen, R.J.N., Geiser, D.M., Gibas, C.F.C., Guarro, J., Kim, H.S., Kistler, H.C., Laraba, I., Leslie, J.F., López-Berges, M.S., Lysøe, E., Meis, J.F.G.M., Monod, M., Proctor, R.H., Rep, M., Ruiz-Roldán, C., Šišić, A., Stajich, J.E., Steenkamp, E.T., Summerell, B.A., Lee, T.A.J. van der, Diepeningen, A.D. van, Verweij, P.E., Waalwijk, C., Ward, T.J., Wickes, B.L., Wiederhold, N.P., Wingfield, M.J., Zhang, N., Zhang, S.X., O'Donnell, K., Al-Hatmi, A.M., Aoki, T., Brankovics, B., Cano-Lira, J.F., Coleman, J.J., Hoog, G.S. de, Pietro, A. Di, Frandsen, R.J.N., Geiser, D.M., Gibas, C.F.C., Guarro, J., Kim, H.S., Kistler, H.C., Laraba, I., Leslie, J.F., López-Berges, M.S., Lysøe, E., Meis, J.F.G.M., Monod, M., Proctor, R.H., Rep, M., Ruiz-Roldán, C., Šišić, A., Stajich, J.E., Steenkamp, E.T., Summerell, B.A., Lee, T.A.J. van der, Diepeningen, A.D. van, Verweij, P.E., Waalwijk, C., Ward, T.J., Wickes, B.L., Wiederhold, N.P., Wingfield, M.J., Zhang, N., and Zhang, S.X.

Abstract

Contains fulltext : 225984.pdf (publisher's version ) (Open Access), 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

3. 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 M.S., Aoki, Takayuki, Brankovics, Balázs, Cano-Lira, Jose F., Coleman, Jeffrey J., de Hoog, G.S., Di Pietro, A., Frandsen, R.J.N., Geiser, D.M., van der Lee, T.A.J., van Diepeningen, A.D., Waalwijk, C., O'Donnell, Kerry, Al-Hatmi, Abdullah M.S., Aoki, Takayuki, Brankovics, Balázs, Cano-Lira, Jose F., Coleman, Jeffrey J., de Hoog, G.S., Di Pietro, A., Frandsen, R.J.N., Geiser, D.M., van der Lee, T.A.J., van Diepeningen, A.D., and Waalwijk, C.

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

5. Letter to the Editor : One Fungus, One Name: Defining the Genus Fusarium in a Scientifically Robust Way That Preserves Longstanding Use

Author

Geiser, D.M., Aoki, T., Bacon, C.W., Baker, S.E., Bhattacharyya, M.K., Brandt, M.E., Brown, D.W., Burgess, L.W., Chulze, S., Coleman, J.J., Correll, J.C., Covert, S.F., Crous, P.W., and Waalwijk, C.

Subjects
genera, taxonomy, EPS-4, Laboratory of Phytopathology, solani species complex, sudden-death syndrome, phylogeny, Bioint Diagnostics, Food Safety & Phyt. Research, reveals, tucumaniae, Laboratorium voor Phytopathologie
Abstract

In this letter, we advocate recognizing the genus Fusarium as the sole name for a group that includes virtually all Fusarium species of importance in plant pathology, mycotoxicology, medicine, and basic research. This phylogenetically guided circumscription will free scientists from any obligation to use other genus names, including teleomorphs, for species nested within this clade, and preserve the application of the name Fusarium in the way it has been used for almost a century. Due to recent changes in the International Code of Nomenclature for algae, fungi, and plants, this is an urgent matter that requires community attention. The alternative is to break the longstanding concept of Fusarium into nine or more genera, and remove important taxa such as those in the F. solani species complex from the genus, a move we believe is unnecessary. Here we present taxonomic and nomenclatural proposals that will preserve established research connections and facilitate communication within and between research communities, and at the same time support strong scientific principles and good taxonomic practice.

Published
2013

6. Novel multilocus sequence typing scheme reveals high genetic diversity of human pathogenic members of the Fusarium incarnatum-F. equiseti and F. chlamydosporum species complexes within the United States

Author

O'Donnell, K., Sutton, D.A., Rinaldi, M.G., Gueidan, C., Crous, P.W., and Geiser, D.M.

Subjects
vitro antifungal resistance, EPS-4, contact-lens, susceptibility, ginseng fields, polymorphism, Laboratorium voor Phytopathologie, fungus aspergillus-fumigatus, Laboratory of Phytopathology, identification, phylogenetic diversity, infections, recognition
Abstract

Species limits within the clinically important Fusarium incarnatum-F. equiseti and F. chlamydosporum species complexes (FIESC and FCSC, respectively) were investigated using multilocus DNA sequence data. Maximum-parsimony and maximum-likelihood analyses of aligned DNA sequences from four loci resolved 28 species within the FIESC, within which the species were evenly divided among two clades designated Incarnatum and Equiseti, and four species within the FCSC. Sequence data from a fifth locus, beta-tubulin, was excluded from the study due to the presence of highly divergent paralogs or xenologs. The multilocus haplotype nomenclature adopted in a previous study (K. O'Donnell, D. A. Sutton, A. Fothergill, D. McCarthy, M. G. Rinaldi, M. E. Brandt, N. Zhang, and D. M. Geiser, J. Clin. Microbiol. 46:2477-2490, 2008) was expanded to all of the species within the FIESC and FCSC to provide the first DNA sequence-based typing schemes for these fusaria, thereby facilitating future epidemiological investigations. Multilocus DNA typing identified sixty-two sequence types (STs) among 88 FIESC isolates and 20 STs among 26 FCSC isolates. This result corresponds to indices of discrimination of 0.985 and 0.966, respectively, for the FIESC and FCSC four-locus typing scheme using Simpson's index of discrimination. Lastly, four human and two veterinary isolates, received as members of the FIESC or FCSC, were resolved as five phylogenetically distinct species nested outside these species complexes. To our knowledge, these five species heretofore have not been reported to cause mycotic infections (i.e., F. armeniacum, F. brachygibbosum, F. flocciferum, and two unnamed Fusarium species within the F. tricinctum species complex).

Published
2009

7. Phytophthora database 2.0: Update and future direction

Author

Park, B., Martin, F., Geiser, D.M., Kim, H-S, Mansfield, M.A., Nikolaeva, E., Park, S-Y, Coffey, M.D., Russo, J., Kim, S.H., Balci, Y., Abad, G., Burgess, T., Grünwald, N., Cheong, K., Choi, J., Lee, Y-H, Kang, S., Park, B., Martin, F., Geiser, D.M., Kim, H-S, Mansfield, M.A., Nikolaeva, E., Park, S-Y, Coffey, M.D., Russo, J., Kim, S.H., Balci, Y., Abad, G., Burgess, T., Grünwald, N., Cheong, K., Choi, J., Lee, Y-H, and Kang, S.

Abstract

The online community resource Phytophthora database (PD) was developed to support accurate and rapid identification of Phytophthora and to help characterize and catalog the diversity and evolutionary relationships within the genus. Since its release in 2008, the sequence database has grown to cover 1 to 12 loci for approximate to 2,600 isolates (representing 138 described and provisional species). Sequences of multiple mitochondrial loci were added to complement nuclear loci-based phylogenetic analyses and diagnostic tool development. Key characteristics of most newly described and provisional species have been summarized. Other additions to improve the PD functionality include: (i) geographic information system tools that enable users to visualize the geographic origins of chosen isolates on a global-scale map, (ii) a tool for comparing genetic similarity between isolates via microsatellite markers to support population genetic studies, (iii) a comprehensive review of molecular diagnostics tools and relevant references, (iv) sequence alignments used to develop polymerase chain reaction-based diagnostics tools to support their utilization and new diagnostic tool development, and (v) an online community forum for sharing and preserving experience and knowledge accumulated in the global Phytophthora community. Here we present how these improvements can support users and discuss the PD's future direction.

Published
2013

8. 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, A.P., Proctor, R.H., Brown, D.W., McCormick, S.P., Ward, T.J., Frandsen, R.J., Lysoe, E., Rehner, S.A., Aoki, T., Robert, V.A.R.G., Crous, P.W., Groenewald, J.Z., Kang, S., Geiser, D.M., O'Donnell, K., Rooney, A.P., Proctor, R.H., Brown, D.W., McCormick, S.P., Ward, T.J., Frandsen, R.J., Lysoe, E., Rehner, S.A., Aoki, T., Robert, V.A.R.G., Crous, P.W., Groenewald, J.Z., Kang, S., and Geiser, D.M.

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., 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
2013

9. Genera in Bionectriaceae, Hypocreaceae, and Nectriaceae (Hypocreales) proposed for acceptance or rejection

Author

Rossman, A.Y., Seifert, K.A., Samuels, G.J., Minnis, A.M., Schroers, H.J., Lombard, L., Crous, P.W., Poldmaa, K., Cannon, P.F., Summerbell, R.C., Geiser, D.M., Zhuang, W.Y., Hirooka, Y., Herrera, C., Salgado-Salazar, C., Chaverri, P., Rossman, A.Y., Seifert, K.A., Samuels, G.J., Minnis, A.M., Schroers, H.J., Lombard, L., Crous, P.W., Poldmaa, K., Cannon, P.F., Summerbell, R.C., Geiser, D.M., Zhuang, W.Y., Hirooka, Y., Herrera, C., Salgado-Salazar, C., and Chaverri, P.

Abstract

With the recent changes concerning pleomorphic fungi in the new International Code of Nomenclature for algae, fungi, and plants (ICN), it is necessary to propose the acceptance or protection of sexual morph-typified or asexual morph-typified generic names that do not have priority, or to propose the rejection or suppression of competing names. In addition, sexual morph-typified generic names, where widely used, must be proposed for rejection or suppression in favour of asexual morph-typified names that have priority, or the latter must be proposed for conservation or protection. Some pragmatic criteria used for deciding the acceptance or rejection of generic names include: the number of name changes required when one generic name is used over another, the clarity of the generic concept, their relative frequencies of use in the scientific literature, and a vote of interested mycologists. Here, twelve widely used generic names in three families of Hypocreales are proposed for acceptance, either by conservation or protection, despite their lack of priority of publication, or because they are widely used asexual morph-typified names. Each pair of generic names is evaluated, with a recommendation as to the generic name to be used, and safeguarded, either through conservation or protection. Four generic names typified by a species with a sexual morph as type that are younger than competing generic names typified by a species with an asexual morph type, are proposed for use. Eight older generic names typified by species with an asexual morph as type are proposed for use over younger competing generic names typified by a species with a sexual morph as type. Within Bionectriaceae, Clonostachys is recommended over Bionectria; in Hypocreaceae, Hypomyces is recommended over Cladobotryum, Sphaerostilbella over Gliocladium, and Trichoderma over Hypocrea; and in Nectriaceae, Actinostilbe is recommended over Lanatonectria, Cylindrocladiella over Nectricladiella, Fusarium over Gibbe, With the recent changes concerning pleomorphic fungi in the new International Code of Nomenclature for algae, fungi, and plants (ICN), it is necessary to propose the acceptance or protection of sexual morph-typified or asexual morph-typified generic names that do not have priority, or to propose the rejection or suppression of competing names. In addition, sexual morph-typified generic names, where widely used, must be proposed for rejection or suppression in favour of asexual morph-typified names that have priority, or the latter must be proposed for conservation or protection. Some pragmatic criteria used for deciding the acceptance or rejection of generic names include: the number of name changes required when one generic name is used over another, the clarity of the generic concept, their relative frequencies of use in the scientific literature, and a vote of interested mycologists. Here, twelve widely used generic names in three families of Hypocreales are proposed for acceptance, either by conservation or protection, despite their lack of priority of publication, or because they are widely used asexual morph-typified names. Each pair of generic names is evaluated, with a recommendation as to the generic name to be used, and safeguarded, either through conservation or protection. Four generic names typified by a species with a sexual morph as type that are younger than competing generic names typified by a species with an asexual morph type, are proposed for use. Eight older generic names typified by species with an asexual morph as type are proposed for use over younger competing generic names typified by a species with a sexual morph as type. Within Bionectriaceae, Clonostachys is recommended over Bionectria; in Hypocreaceae, Hypomyces is recommended over Cladobotryum, Sphaerostilbella over Gliocladium, and Trichoderma over Hypocrea; and in Nectriaceae, Actinostilbe is recommended over Lanatonectria, Cylindrocladiella over Nectricladiella, Fusarium over Gibbe

Published
2013

10. One fungus, one name: defining the genus Fusarium in a scientifically robust way that preserves longstanding use

Author

Geiser, D.M., Aoki, T., Bacon, C.W., Baker, S.E., Bhattacharyya, M.K., Brandt, M.E., Brown, D.W., Burgess, L.W., Chulze, S., Coleman, J.J., Correll, J.C., Covert, S.F., Crous, P.W., Cuomo, C.A., de Hoog, G.S., Di Pietro, A., Elmer, W.H., Epstein, L., Frandsen, R.J.N., Freeman, S., Gagkaeva, T., Glenn, A.E., Gordon, T.R., Gregory, N.F., Hammond-Kosack, K.E., Hanson, L.E., del Mar Jímenez-Gasco, M., Kang, S., Kistler, H.C., Kuldau, G.A., Leslie, J.F., Logrieco, A., Lu, Guozhong, Lysoe, E., Ma, Li-Jun, McCormick, S.P., Migheli, Q., Moretti, A., Munaut, F., O'Donnell, K., Pfenning, L., Ploetz, R.C., Proctor, R.H., Rehner, S.A., Robert, V.A.R.G., Rooney, A.P., bin Salleh, B., Scandiani, M.M., Scauflaire, J., Short, D.P.G., Steenkamp, E., Suga, Haruhisa, Summerell, B.A., Sutton, D.A., Thrane, U., Trail, F., Van Diepeningen, A., VanEtten, H.D., Viljoen, A., Waalwijk, C., Ward, T.J., Wingfield, M.J., Xu, Jin-Rong, Yang, Xiao-Bing, Yli-Mattila, T., Zhang, Ning, Geiser, D.M., Aoki, T., Bacon, C.W., Baker, S.E., Bhattacharyya, M.K., Brandt, M.E., Brown, D.W., Burgess, L.W., Chulze, S., Coleman, J.J., Correll, J.C., Covert, S.F., Crous, P.W., Cuomo, C.A., de Hoog, G.S., Di Pietro, A., Elmer, W.H., Epstein, L., Frandsen, R.J.N., Freeman, S., Gagkaeva, T., Glenn, A.E., Gordon, T.R., Gregory, N.F., Hammond-Kosack, K.E., Hanson, L.E., del Mar Jímenez-Gasco, M., Kang, S., Kistler, H.C., Kuldau, G.A., Leslie, J.F., Logrieco, A., Lu, Guozhong, Lysoe, E., Ma, Li-Jun, McCormick, S.P., Migheli, Q., Moretti, A., Munaut, F., O'Donnell, K., Pfenning, L., Ploetz, R.C., Proctor, R.H., Rehner, S.A., Robert, V.A.R.G., Rooney, A.P., bin Salleh, B., Scandiani, M.M., Scauflaire, J., Short, D.P.G., Steenkamp, E., Suga, Haruhisa, Summerell, B.A., Sutton, D.A., Thrane, U., Trail, F., Van Diepeningen, A., VanEtten, H.D., Viljoen, A., Waalwijk, C., Ward, T.J., Wingfield, M.J., Xu, Jin-Rong, Yang, Xiao-Bing, Yli-Mattila, T., and Zhang, Ning

Abstract

In this letter, we advocate recognizing the genus Fusarium as the sole name for a group that includes virtually all Fusarium species of importance in plant pathology, mycotoxicology, medicine, and basic research. This phylogenetically guided circumscription will free scientists from any obligation to use other genus names, including teleomorphs, for species nested within this clade, and preserve the application of the name Fusarium in the way it has been used for almost a century. Due to recent changes in the International Code of Nomenclature for algae, fungi, and plants, this is an urgent matter that requires community attention. The alternative is to break the longstanding concept of Fusarium into nine or more genera, and remove important taxa such as those in the F. solani species complex from the genus, a move we believe is unnecessary. Here we present taxonomic and nomenclatural proposals that will preserve established research connections and facilitate communication within and between research communities, and at the same time support strong scientific principles and good taxonomic practice., In this letter, we advocate recognizing the genus Fusarium as the sole name for a group that includes virtually all Fusarium species of importance in plant pathology, mycotoxicology, medicine, and basic research. This phylogenetically guided circumscription will free scientists from any obligation to use other genus names, including teleomorphs, for species nested within this clade, and preserve the application of the name Fusarium in the way it has been used for almost a century. Due to recent changes in the International Code of Nomenclature for algae, fungi, and plants, this is an urgent matter that requires community attention. The alternative is to break the longstanding concept of Fusarium into nine or more genera, and remove important taxa such as those in the F. solani species complex from the genus, a move we believe is unnecessary. Here we present taxonomic and nomenclatural proposals that will preserve established research connections and facilitate communication within and between research communities, and at the same time support strong scientific principles and good taxonomic practice.

Published
2013

11. Proposal for a new ISHAM working group on clinical Fusarium

Author

van Diepeningen, A.D., Geiser, D.M., Guarro, J., Sutton, D.A., Pearlman, E., O'Donnell, K., Harak, H., Summerell, B.A., Najafzadeh, M.J., Brandt, M.E., Hennequin, C., Tortorano, A.M., Schroers, H.J., Buot, G., de Hoog, G.S., van Diepeningen, A.D., Geiser, D.M., Guarro, J., Sutton, D.A., Pearlman, E., O'Donnell, K., Harak, H., Summerell, B.A., Najafzadeh, M.J., Brandt, M.E., Hennequin, C., Tortorano, A.M., Schroers, H.J., Buot, G., and de Hoog, G.S.

Published
2012

12. 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, R.A., Geiser, D.M., Kang, S., Park, B., Robert, V., Crous, P.W., Johnston, P.R., Aoki, T., Rooney, A.P., Rehner, S.A., O'Donnell, K., Humber, R.A., Geiser, D.M., Kang, S., Park, B., Robert, V., Crous, P.W., Johnston, P.R., Aoki, T., Rooney, A.P., and Rehner, S.A.

Abstract

We constructed several multilocus DNA sequence datasets to assess the phylogenetic diversity of insecticolous fusaria, especially focusing on those housed in the Agricultural Research Service Collection of Entomopathogenic Fungi (ARSEF), and to facilitate 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: 1) insect-associated fusaria were nested within 10 species complexes spanning the phylogenetic breadth of Fusarium, 2) novel, putatively unnamed insecticolous species were nested within 8/10 species complexes, and 3) 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 web-accessible sites dedicated to identifying fusaria: FUSARIUM-ID (http://isolate.fusariumdb.org) at The 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., We constructed several multilocus DNA sequence datasets to assess the phylogenetic diversity of insecticolous fusaria, especially focusing on those housed in the Agricultural Research Service Collection of Entomopathogenic Fungi (ARSEF), and to facilitate 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: 1) insect-associated fusaria were nested within 10 species complexes spanning the phylogenetic breadth of Fusarium, 2) novel, putatively unnamed insecticolous species were nested within 8/10 species complexes, and 3) 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 web-accessible sites dedicated to identifying fusaria: FUSARIUM-ID (http://isolate.fusariumdb.org) at The 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

13. The Amsterdam Declaration on Fungal Nomenclature

Author

Hawksworth, D.L., Crous, P.W., Redhead, S.A., Reynolds, D.R., Samson, R.A., Seifert, K.A., Taylor, J.W., Wingfield, M.J., Abaci, O., Aime, C., Asan, A., Bai, F-Y, de Beer, Z.W., Begerow, D., Berikten, D., Boekhout, T., Buchanan, P.K., Burgess, T., Buzina, W., Cai, L., Cannon, P.F., Crane, J.L., Damm, U., Daniel, H-M, van Diepeningen, A.D., Druzhinina, I., Dyer, P.S., Eberhardt, U., Fell, J.W., Frisvad, J.C., Geiser, D.M., Geml, J., Glienke, C., Gräfenhan, T., Groenewald, J.Z., Groenewald, M., de Gruyter, J., Guého-Kellermann, E., Guo, L-D, Hibbett, D.S., Hong, S-B, de Hoog, G.S., Houbraken, J., Huhndorf, S.M., Hyde, K.D., Ismail, A., Johnston, P.R., Kadaifciler, D.G., Kirk, P.M., Kõljalg, U., Kurtzman, C.P., Lagneau, P-E, Lévesque, C.A., Liu, X., Lombard, L., Meyer, W., Miller, A., Minter, D.W., Najafzadeh, M.J., Norvell, L., Ozerskaya, S.M., Öziç, R., Pennycook, S.R., Peterson, S.W., Pettersson, O.V., Quaedvlieg, W., Robert, V.A., Ruibal, C., Schnürer, J., Schroers, H-J, Shivas, R.G., Slippers, B., Spierenburg, H., Takashima, M., Taşkın, E., Thines, M., Thrane, U., Uztan, A.H., van Raak, M., Varga, J., Vasco, A., Verkley, G., Videira, S.I.R., de Vries, R.P., Weir, B.S., Yilmaz, N., Yurkov, A., Zhang, N., Hawksworth, D.L., Crous, P.W., Redhead, S.A., Reynolds, D.R., Samson, R.A., Seifert, K.A., Taylor, J.W., Wingfield, M.J., Abaci, O., Aime, C., Asan, A., Bai, F-Y, de Beer, Z.W., Begerow, D., Berikten, D., Boekhout, T., Buchanan, P.K., Burgess, T., Buzina, W., Cai, L., Cannon, P.F., Crane, J.L., Damm, U., Daniel, H-M, van Diepeningen, A.D., Druzhinina, I., Dyer, P.S., Eberhardt, U., Fell, J.W., Frisvad, J.C., Geiser, D.M., Geml, J., Glienke, C., Gräfenhan, T., Groenewald, J.Z., Groenewald, M., de Gruyter, J., Guého-Kellermann, E., Guo, L-D, Hibbett, D.S., Hong, S-B, de Hoog, G.S., Houbraken, J., Huhndorf, S.M., Hyde, K.D., Ismail, A., Johnston, P.R., Kadaifciler, D.G., Kirk, P.M., Kõljalg, U., Kurtzman, C.P., Lagneau, P-E, Lévesque, C.A., Liu, X., Lombard, L., Meyer, W., Miller, A., Minter, D.W., Najafzadeh, M.J., Norvell, L., Ozerskaya, S.M., Öziç, R., Pennycook, S.R., Peterson, S.W., Pettersson, O.V., Quaedvlieg, W., Robert, V.A., Ruibal, C., Schnürer, J., Schroers, H-J, Shivas, R.G., Slippers, B., Spierenburg, H., Takashima, M., Taşkın, E., Thines, M., Thrane, U., Uztan, A.H., van Raak, M., Varga, J., Vasco, A., Verkley, G., Videira, S.I.R., de Vries, R.P., Weir, B.S., Yilmaz, N., Yurkov, A., and Zhang, N.

Abstract

The Amsterdam Declaration on Fungal Nomenclature was agreed at an international symposium convened in Amsterdam on 19–20 April 2011 under the auspices of the International Commission on the Taxonomy of Fungi (ICTF). The purpose of the symposium was to address the issue of whether or how the current system of naming pleomorphic fungi should be maintained or changed now that molecular data are routinely available. The issue is urgent as mycologists currently follow different practices, and no consensus was achieved by a Special Committee appointed in 2005 by the International Botanical Congress to advise on the problem. The Declaration recognizes the need for an orderly transitition to a single-name nomenclatural system for all fungi, and to provide mechanisms to protect names that otherwise then become endangered. That is, meaning that priority should be given to the first described name, except where that is a younger name in general use when the first author to select a name of a pleomorphic monophyletic genus is to be followed, and suggests controversial cases are referred to a body, such as the ICTF, which will report to the Committee for Fungi. If appropriate, the ICTF could be mandated to promote the implementation of the Declaration. In addition, but not forming part of the Declaration, are reports of discussions held during the symposium on the governance of the nomenclature of fungi, and the naming of fungi known only from an environmental nucleic acid sequence in particular. Possible amendments to the Draft BioCode (2011) to allow for the needs of mycologists are suggested for further consideration, and a possible example of how a fungus only known from the environment might be described is presented.

Published
2011

14. An internet-accessible DNA sequence database for identifying fusaria from human and animal infections

Author

O'Donnell, K., Sutton, D.A., Rinaldi, M.G., Sarver, B.A.J., Balajee, S.A., Schroers, H.J., Summerbell, R.C., Robert, V.A.R.G., Crous, P.W., Zhang, N., Aoki, T., Jung, K., Park, J., Lee, Y.H., Kang, S., Park, B., Geiser, D.M., O'Donnell, K., Sutton, D.A., Rinaldi, M.G., Sarver, B.A.J., Balajee, S.A., Schroers, H.J., Summerbell, R.C., Robert, V.A.R.G., Crous, P.W., Zhang, N., Aoki, T., Jung, K., Park, J., Lee, Y.H., Kang, S., Park, B., and Geiser, D.M.

Abstract

Because less than one-third of clinically relevant fusaria can be accurately identified to species level using phenotypic data (i.e., morphological species recognition), we constructed a three-locus DNA sequence database to facilitate molecular identification of the 69 Fusarium species associated with human or animal mycoses encountered in clinical microbiology laboratories. The database comprises partial sequences from three nuclear genes: translation elongation factor 1{alpha} (EF-1{alpha}), the largest subunit of RNA polymerase (RPB1), and the second largest subunit of RNA polymerase (RPB2). These three gene fragments can be amplified by PCR and sequenced using primers that are conserved across the phylogenetic breadth of Fusarium. Phylogenetic analyses of the combined data set reveal that, with the exception of two monotypic lineages, all clinically relevant fusaria are nested in one of eight variously sized and strongly supported species complexes. The monophyletic lineages have been named informally to facilitate communication of an isolate's clade membership and genetic diversity. To identify isolates to the species included within the database, partial DNA sequence data from one or more of the three genes can be used as a BLAST query against the database which is Web accessible at FUSARIUM-ID (http://isolate.fusariumdb.org) and the Centraalbureau voor Schimmelcultures (CBS-KNAW) Fungal Biodiversity Center (http://www.cbs.knaw.nl/fusarium). Alternatively, isolates can be identified via phylogenetic analysis by adding sequences of unknowns to the DNA sequence alignment, which can be downloaded from the two aforementioned websites. The utility of this database should increase significantly as members of the clinical microbiology community deposit in internationally accessible culture collections (e.g., CBS-KNAW or the Fusarium Research Center) cultures of novel mycosis-associated fusaria, along with associated, corrected sequence chromatograms and data, so that

Published
2010

15. The Ascomycota Tree of Life: A Phylum-wide Phylogeny Clarifies the Origin and Evolution of Fundamental Reproductive and Ecological Traits

Author

Schoch, C.L., Sung, G.H., Lopez-Giraldez, F., Townsend, J.P., Miadlikowska, J., Hofstetter, V., Robbertse, B., Matheny, P.B., Kauff, F., Wang, Z., Gueidan, C., Andrie, R.M., Trippe, K., Ciufetti, L.M., Wynns, A., Fraker, E., Hodkinson, B.P., Bonito, G., Groenewald, J.Z., Arzanlou, M., de Hoog, G.S., Crous, P.W., Hewitt, D., Pfister, D.H., Peterson, K., Gryzenhout, M., Wingfield, M.J., Aptroot, A., Suh, S.O., Blackwell, M., Hillis, D.M., Griffith, G.W., Castlebury, L.A., Rossman, A.Y., Lumbsch, H.T., Lucking, R., Budel, B., Rauhut, A., Diederich, P., Ertz, D., Geiser, D.M., Hosaka, K., Inderbitzin, P., Kohlmeyer, J., Volkmann-Kohlmeyer, B., Mostert, L., O'Donnell, K., Sipman, H., Rogers, J., Shoemaker, R.A., Sugiyama, J., Summerbell, R.C., Untereiner, W.A., Johnston, P.R., Stenroos, S., Zuccaro, A., Dyer, P.S., Crittenden, P.D., Cole, M.S., Hansen, K., Trappe, J.M., Yahr, R., Lutzoni, F., Spatafora, J.W., Schoch, C.L., Sung, G.H., Lopez-Giraldez, F., Townsend, J.P., Miadlikowska, J., Hofstetter, V., Robbertse, B., Matheny, P.B., Kauff, F., Wang, Z., Gueidan, C., Andrie, R.M., Trippe, K., Ciufetti, L.M., Wynns, A., Fraker, E., Hodkinson, B.P., Bonito, G., Groenewald, J.Z., Arzanlou, M., de Hoog, G.S., Crous, P.W., Hewitt, D., Pfister, D.H., Peterson, K., Gryzenhout, M., Wingfield, M.J., Aptroot, A., Suh, S.O., Blackwell, M., Hillis, D.M., Griffith, G.W., Castlebury, L.A., Rossman, A.Y., Lumbsch, H.T., Lucking, R., Budel, B., Rauhut, A., Diederich, P., Ertz, D., Geiser, D.M., Hosaka, K., Inderbitzin, P., Kohlmeyer, J., Volkmann-Kohlmeyer, B., Mostert, L., O'Donnell, K., Sipman, H., Rogers, J., Shoemaker, R.A., Sugiyama, J., Summerbell, R.C., Untereiner, W.A., Johnston, P.R., Stenroos, S., Zuccaro, A., Dyer, P.S., Crittenden, P.D., Cole, M.S., Hansen, K., Trappe, J.M., Yahr, R., Lutzoni, F., and Spatafora, J.W.

Abstract

We present a 6-gene, 420-species maximum-likelihood phylogeny of Ascomycota, the largest phylum of Fungi. This analysis is the most taxonomically complete to date with species sampled from all 15 currently circumscribed classes. A number of superclass-level nodes that have previously evaded resolution and were unnamed in classifications of the Fungi are resolved for the first time. Based on the 6-gene phylogeny we conducted a phylogenetic informativeness analysis of all 6 genes and a series of ancestral character state reconstructions that focused on morphology of sporocarps, ascus dehiscence, and evolution of nutritional modes and ecologies. A gene-by-gene assessment of phylogenetic informativeness yielded higher levels of informativeness for protein genes (RPB1, RPB2, and TEF1) as compared with the ribosomal genes, which have been the standard bearer in fungal systematics. Our reconstruction of sporocarp characters is consistent with 2 origins for multicellular sexual reproductive structures in Ascomycota, once in the common ancestor of Pezizomycotina and once in the common ancestor of Neolectomycetes. This first report of dual origins of ascomycete sporocarps highlights the complicated nature of assessing homology of morphological traits across Fungi. Furthermore, ancestral reconstruction supports an open sporocarp with an exposed hymenium (apothecium) as the primitive morphology for Pezizomycotina with multiple derivations of the partially (perithecia) or completely enclosed (cleistothecia) sporocarps. Ascus dehiscence is most informative at the class level within Pezizomycotina with most superclass nodes reconstructed equivocally. Character-state reconstructions support a terrestrial, saprobic ecology as ancestral. In contrast to previous studies, these analyses support multiple origins of lichenization events with the loss of lichenization as less frequent and limited to terminal, closely related species., We present a 6-gene, 420-species maximum-likelihood phylogeny of Ascomycota, the largest phylum of Fungi. This analysis is the most taxonomically complete to date with species sampled from all 15 currently circumscribed classes. A number of superclass-level nodes that have previously evaded resolution and were unnamed in classifications of the Fungi are resolved for the first time. Based on the 6-gene phylogeny we conducted a phylogenetic informativeness analysis of all 6 genes and a series of ancestral character state reconstructions that focused on morphology of sporocarps, ascus dehiscence, and evolution of nutritional modes and ecologies. A gene-by-gene assessment of phylogenetic informativeness yielded higher levels of informativeness for protein genes (RPB1, RPB2, and TEF1) as compared with the ribosomal genes, which have been the standard bearer in fungal systematics. Our reconstruction of sporocarp characters is consistent with 2 origins for multicellular sexual reproductive structures in Ascomycota, once in the common ancestor of Pezizomycotina and once in the common ancestor of Neolectomycetes. This first report of dual origins of ascomycete sporocarps highlights the complicated nature of assessing homology of morphological traits across Fungi. Furthermore, ancestral reconstruction supports an open sporocarp with an exposed hymenium (apothecium) as the primitive morphology for Pezizomycotina with multiple derivations of the partially (perithecia) or completely enclosed (cleistothecia) sporocarps. Ascus dehiscence is most informative at the class level within Pezizomycotina with most superclass nodes reconstructed equivocally. Character-state reconstructions support a terrestrial, saprobic ecology as ancestral. In contrast to previous studies, these analyses support multiple origins of lichenization events with the loss of lichenization as less frequent and limited to terminal, closely related species.

Published
2009

16. A two-locus DNA sequence database for typing plant and human pathogens within the Fusarium oxysporum species complex

Author

O'Donnell, K., Gueidan, C., Sink, S., Johnston, P.R., Crous, P.W., Glenn, A., Riley, R., Zitomer, N., Colyer, P., Waalwijk, C., van der Lee, T.A.J., Moretti, A., Kang, S., Kim, H.K., Geiser, D.M., Juba, J., Baayen, R.P., Cromey, M.G., Bithell, S., Sutton, D.A., Skovgaard, K., Ploetz, R., Kistler, H.C., Elliott, M., Davis, M., Sarver, B.A., O'Donnell, K., Gueidan, C., Sink, S., Johnston, P.R., Crous, P.W., Glenn, A., Riley, R., Zitomer, N., Colyer, P., Waalwijk, C., van der Lee, T.A.J., Moretti, A., Kang, S., Kim, H.K., Geiser, D.M., Juba, J., Baayen, R.P., Cromey, M.G., Bithell, S., Sutton, D.A., Skovgaard, K., Ploetz, R., Kistler, H.C., Elliott, M., Davis, M., and Sarver, B.A.

Abstract

We constructed a two-locus database, comprising partial translation elongation factor (EF-1alpha) gene sequences and nearly full-length sequences of the nuclear ribosomal intergenic spacer region (IGS rDNA) for 850 isolates spanning the phylogenetic breadth of the Fusarium oxysporum species complex (FOSC). Of the 850 isolates typed, 101 EF-1alpha, 203 IGS rDNA, and 256 two-locus sequence types (STs) were differentiated. Analysis of the combined dataset suggests that two-thirds of the STs might be associated with a single host plant. This analysis also revealed that the 26 STs associated with human mycoses were genetically diverse, including several which appear to be nosocomial in origin. A congruence analysis, comparing partial EF-1alpha and IGS rDNA bootstrap consensus, identified a significant number of conflicting relationships dispersed throughout the bipartitions, suggesting that some of the IGS rDNA sequences may be non-orthologous. We also evaluated enniatin, fumonisin and moniliformin mycotoxin production in vitro within a phylogenetic framework., We constructed a two-locus database, comprising partial translation elongation factor (EF-1alpha) gene sequences and nearly full-length sequences of the nuclear ribosomal intergenic spacer region (IGS rDNA) for 850 isolates spanning the phylogenetic breadth of the Fusarium oxysporum species complex (FOSC). Of the 850 isolates typed, 101 EF-1alpha, 203 IGS rDNA, and 256 two-locus sequence types (STs) were differentiated. Analysis of the combined dataset suggests that two-thirds of the STs might be associated with a single host plant. This analysis also revealed that the 26 STs associated with human mycoses were genetically diverse, including several which appear to be nosocomial in origin. A congruence analysis, comparing partial EF-1alpha and IGS rDNA bootstrap consensus, identified a significant number of conflicting relationships dispersed throughout the bipartitions, suggesting that some of the IGS rDNA sequences may be non-orthologous. We also evaluated enniatin, fumonisin and moniliformin mycotoxin production in vitro within a phylogenetic framework.

Published
2009

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