Your search keyword '"Voglmayr, H."' showing total 12 results

1. Taxonomy and oogonial ultrastructure of a new aero-aquatic peronosporomycete, Medusoides gen. nov. (Pythiogetonaceae fam. nov.)

Author

Voglmayr, H., primary, Bonner, Lynda J., additional, and Dick, M.W., additional

Published

1999

2. Taxonomy and oogonial ultrastructure of a new aero-aquatic peronosporomycete, <e1>Medusoides</e1> gen. nov. (Pythiogetonaceae fam. nov.)

Author

VOGLMAYR, H., BONNER, LYNDA J., and DICK, M. W.

Abstract

Medusoides gen. nov. is described from North Carolina, U.S.A. The fungus reproduces sexually, with oogonia and antheridia, but no asexual stage has yet been found. The fungus has not yet been obtained in culture. The vegetative growth is mycelial but the hyphae are very narrow (&lt;3 μm) with vesiculate nodes. The oospores are strictly plerotic. Oogonial and oospore walls are distinctive with unique ultrastructure. The peronosporomycete is a typical aero-aquatic fungus, having markedly buoyant propagules, due to the possession of long, recurved, oogonial outgrowths covering the oogonium sufficiently densely so as to retain air between them and the oogonial surface after exposure and reimmersion. Its habitat, in the lower layers of submerged deciduous leaf litter, suggests survival in an anaerobic environment and a fermentative capacity. An affinity with Pythiogeton is proposed, and Pythiogeton is made the type genus of a new family, the Pythiogetonaceae.

Published

1999

3. Phylogenetic relationships of Peronospora and related genera based on nuclear ribosomal ITS sequences

Author

VOGLMAYR, H

Published

2003

4. Species delimitation in downy mildews: the case of Hyaloperonospora in the light of nuclear ribosomal ITS and LSU sequences.

Author

Göker M, Voglmayr H, Blázquez GG, and Oberwinkler F

Subjects

Brassicaceae microbiology, Cell Nucleus genetics, DNA, Ribosomal genetics, DNA, Ribosomal Spacer genetics, Oomycetes genetics, Phylogeny, Ribosome Subunits, Large genetics, Oomycetes classification, Plant Diseases microbiology

Abstract

Species definitions for plant pathogens have considerable practical impact for measures such as plant protection or biological control, and are also important for comparative studies involving model organisms. However, in many groups, the delimitation of species is a notoriously difficult taxonomic problem. This is particularly evident in the obligate biotrophic downy mildew genera (Peronosporaceae, Peronosporales, Oomycetes), which display a considerable diversity with respect to genetic distances and host plants, but are, for the most part, morphologically rather uniform. The recently established genus Hyaloperonospora is of particular biological interest because it shows an impressive radiation on virtually a single host family, Brassicaceae, and it contains the downy mildew parasite, Arabidopsis thaliana, of importance as a model organism. Based on the most comprehensive molecular sampling of specimens from a downy mildew genus to date, including various collections from different host species and geographic locations, we investigate the phylogenetic relationships of Hyaloperonospora by molecular analysis of the nuclear ribosomal ITS and LSU sequences. Phylogenetic trees were inferred with ML and MP from the combined dataset; partitioned Bremer support (PBrS) was used to assess potential conflict between data partitions. As in other downy mildew groups, the molecular data clearly corroborate earlier results that supported the use of narrow species delimitations and host ranges as taxonomic markers. With few exceptions, suggested species boundaries are supported without conflict between different data partitions. The results indicate that a combination of molecular and host features is a reliable means to discriminate downy mildew species for which morphological differences are unknown.

Published

2009

5. Prosthecium species with Stegonsporium anamorphs on Acer.

Author

Voglmayr H and Jaklitsch WM

Subjects

Ascomycota cytology, Ascomycota genetics, DNA, Fungal genetics, DNA, Ribosomal Spacer genetics, Ecology, Host-Pathogen Interactions, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Spores, Fungal cytology, Acer microbiology, Ascomycota classification, Ascomycota isolation & purification, Plant Diseases microbiology

Abstract

Data from microscopic morphology, single-spore cultures, and DNA analyses of teleomorphs and anamorphs support the recognition of five species of Prosthecium with Stegonsporium anamorphs on Acer: P. acerinum sp. nov., the teleomorph of S. acerinum; P. acerophilum comb. nov., formerly known as Dictyoporthe acerophila; P. galeatum comb. nov., originally described as Massaria galeata; P. opalus sp. nov.; and P. pyriforme sp. nov., the teleomorph of S. pyriforme s. str. The morphology of both type specimens and freshly collected material was investigated. The teleomorphs have brown ellipsoidal ascospores with five distosepta and often a longitudinal distoseptum. The anamorphs of all species described here belong to Stegonsporium; their connection to the Prosthecium teleomorphs was demonstrated by morphology and DNA sequences of single spore cultures derived from both ascospores and conidia. The anamorphs and teleomorphs of all five Prosthecium species are described and illustrated by LM images, and a key to these species is provided. As perceived from this work, S. pyriforme is restricted to Europe and does not occur in North America, whereas S. acerinum is restricted to North America, not found in Europe. The host associations given in the literature are revised and evidence is provided that only A. opalus, A. pseudoplatanus, and A. saccharum are confirmed hosts of Prosthecium with Stegonsporium anamorphs. Molecular phylogenetic analyses of tef1, ITS rDNA, and partial nuLSU rDNA sequences confirm that the species with Stegonsporium anamorphs are closely related to P. ellipsosporum, the generic type species. Stilbospora macrosperma is confirmed as the anamorph of P. ellipsosporum by DNA data of single spore isolates obtained from both ascospores and conidia.

Published

2008

6. Phylogeny of Peronospora, parasitic on Fabaceae, based on ITS sequences.

Author

García-Blázquez G, Göker M, Voglmayr H, Martín MP, Tellería MT, and Oberwinkler F

Subjects

DNA, Fungal genetics, Host-Pathogen Interactions, Molecular Sequence Data, Peronospora cytology, Peronospora genetics, Peronospora isolation & purification, Phylogeny, Sequence Alignment, Sequence Analysis, DNA, DNA, Ribosomal Spacer genetics, Fabaceae microbiology, Peronospora classification, Plant Diseases microbiology

Abstract

Species concepts are a notoriously difficult taxonomic problem in plant-parasitic fungal-like organisms such as downy mildews (Peronosporomycetes, Peronosporales). This is particularly evident in the largest downy mildew genus, Peronospora, which contains a number of economically important pathogens. Here, we investigate relationships of Peronospora species infecting Fabaceae (angiosperms, Rosidae) originating from various collections from different species of host plants and from different European locations by molecular phylogenetic analysis of ITS sequences. Molecular trees were inferred with ML, MP and Bayesian methods and rooted with Pseudoperonospora. As in other downy mildew groups, molecular data mainly support the use of narrow species delimitations and host range as a taxonomic marker. Fabaceae parasites appear to be subdivided into a number of lineages displaying a considerable degree of host specialization with respect to host genera, as well as host subgenera or species. The number of repeats of a repetitive part of the ITS1 is, within limits, characteristic of subgroups within the cluster of Trifolium parasites. We reveal new hosts for Peronospora found on the Iberian Peninsula.

Published

2008

7. Revision and reclassification of three Plasmopara species based on morphological and molecular phylogenetic data.

Author

Voglmayr H and Constantinescu O

Subjects

DNA, Fungal genetics, DNA, Ribosomal Spacer genetics, Molecular Sequence Data, Peronospora genetics, Peronospora isolation & purification, Phylogeny, Plant Diseases microbiology, RNA, Ribosomal genetics, Sequence Analysis, DNA, Peronospora classification, Peronospora cytology

Abstract

Based on the results of morphological and DNA sequence (partial D1-D3/D7-D8 nuLSU and partial nuSSU-ITS1-5.8S rDNA) data, three species of Plasmopara are revised and reclassified. A species of Plasmopara parasitic on Scorzonera, invalidly published several times, is assigned to a new genus and species under Novotelnova scorzonerae. Plasmopara euphrasiae sp. nov. is segregated from P. densa, and P. centaureae-mollis is revised and relegated to synonymy of Bremia centaureae. All taxa are described and illustrated.

Published

2008

8. Polyancora globosa gen. sp. nov., an aeroaquatic fungus from Malaysian peat swamp forests.

Author

Voglmayr H and Yule CM

Subjects

Climate, DNA, Fungal genetics, DNA, Fungal isolation & purification, DNA, Ribosomal genetics, DNA, Ribosomal isolation & purification, Ecosystem, Fungi classification, Malaysia, Phylogeny, Spores, Fungal isolation & purification, Fungi isolation & purification, Trees microbiology

Abstract

During an investigation of submerged leaves and twigs sampled from tropical peat swamp forests located in Peninsular Malaysia, an anamorphic fungus not attributable to a described genus was detected and isolated in pure culture. Conidial ontogeny was thoroughly studied and illustrated using both light and SEM, which revealed a unique conidial morphology. Analysis of partial nuLSU rDNA and ITS data revealed a phylogenetic position within the Xylariales (Ascomycota), but family affiliation remained unclear.

Published

2006

9. Revision of Plasmopara (Chromista, Peronosporales) parasitic on Geraniaceae.

Author

Voglmayr H, Fatehi J, and Constantinescu O

Subjects

Bayes Theorem, DNA, Fungal analysis, DNA, Ribosomal analysis, DNA, Ribosomal Spacer, Molecular Sequence Data, Mycological Typing Techniques, Peronospora genetics, Peronospora ultrastructure, Phylogeny, Sequence Analysis, DNA, Geraniaceae microbiology, Peronospora classification, Peronospora pathogenicity, Plant Diseases microbiology

Abstract

Following a phenetic and phylogenetic analysis, five species of Plasmopara are recognized on Geraniaceae: P. pusilla and P. geranii-sylvatici in Eurasia, P. geranii in North America, P. praetermissa sp. nov. in Eurasia and North America, and P. wilsonii sp. nov. in North America and Far East Asia. Both the D1/D2 domains of the nuLSU-rDNA and the complete ITS1-5.8S rDNA-ITS2 region were analysed with MP and Bayesian methods to reveal phylogenetic relationships of the species. All species formed highly supported monophyletic lineages, which is corroborated by their distinct morphology. A key for identification, detailed descriptions, illustrations, and data on distribution are provided.

Published

2006

10. Phylogenetic relationships of Albugo species (white blister rusts) based on LSU rDNA sequence and oospore data.

Author

Voglmayr H and Riethmüller A

Subjects

DNA, Ribosomal genetics, Oomycetes cytology, Oomycetes genetics, Oomycetes ultrastructure, Phylogeny, DNA, Fungal analysis, DNA, Ribosomal analysis, Oomycetes classification, Spores, Fungal ultrastructure

Abstract

Phylogenetic maximum parsimony and Bayesian analyses of 60 collections belonging to 12 species of Albugo (Peronosporales) and two species of Pythium (Pythiales) were performed using nuclear large subunit ribosomal DNA sequences containing the D1 and D2 regions. These data were supplemented with detailed light and scanning electron microscopical analyses of oospore morphology, and the morphological data of insufficiently studied taxa (e.g. A. caryophyllacearum, A. gomphrenae) are revised. Molecular data revealed two main clades: one containing the collections from hosts belonging to the Caryophyllales and Asteraceae, and the other containing the collections from hosts belonging to the Brassicaceae and Convolvulaceae. Separation into these two clades was also corroborated by oospore morphology. Whereas the Albugo collections from Caryophyllales did not form a monophyletic lineage, the collections originating from Brassicaceae, Convolvulaceae and Asteraceae each formed highly supported monophyletic clades. According to DNA sequence data and oospore morphology, the host genus Amaranthus harbors two distinct species, Albugo amaranthi and Albugo bliti. The DNA sequence data further indicate that Albugo candida and Albugo tragopogonis each may consist of several distinct lineages, but additional data need to be collected before further taxonomic conclusions can be made.

Published

2006

11. Phylogenetic relationships of Plasmopara, Bremia and other genera of downy mildew pathogens with pyriform haustoria based on Bayesian analysis of partial LSU rDNA sequence data.

Author

Voglmayr H, Riethmüller A, Göker M, Weiss M, and Oberwinkler F

Subjects

Bayes Theorem, Evolution, Molecular, Oomycetes cytology, Oomycetes pathogenicity, Phylogeny, Sequence Alignment statistics & numerical data, DNA, Fungal genetics, DNA, Ribosomal genetics, Oomycetes classification, Oomycetes genetics

Abstract

Bayesian and maximum parsimony phylogenetic analyses of 92 collections of the genera Basidiophora, Bremia, Paraperonospora, Phytophthora and Plasmopara were performed using nuclear large subunit ribosomal DNA sequences containing the D1 and D2 regions. In the Bayesian tree, two main clades were apparent: one clade containing Plasmopara pygmaea s. lat., Pl. sphaerosperma, Basidiophora, Bremia and Paraperonospora, and a clade containing all other Plasmopara species. Plasmopara is shown to be polyphyletic, and Pl. sphaerosperma is transferred to a new genus, Protobremia, for which also the oospore characteristics are described. Within the core Plasmopara clade, all collections originating from the same host family except from Asteraceae and Geraniaceae formed monophyletic clades; however, higher-level phylogenetic relationships lack significant branch support. A sister group relationship of Pl. sphaerosperma with Bremia lactucae is highly supported. Within Bremia lactucae s. l., three distinct clades are evident, which only partly conform to the published host specificity groups. All species of the genera Basidiophora, Bremia, Paraperonospora and Plasmopara included in the present study were investigated for haustorial morphology, and all had ellipsoid to pyriform haustoria, which are regarded as a diagnostic synapomorphy of the whole clade. Aspects of coevolution and cospeciation within the downy mildew pathogens with ellipsoid to pyriform haustoria are briefly discussed.

Published

2004

12. New species, notes and key to the aeroaquatic genera Beverwykella and Ramicephala gen. nov.

Author

Voglmayr H and Delgado-Rodríguez G

Subjects

Fungi physiology, Fungi ultrastructure, Microscopy, Electron, Scanning, Mycological Typing Techniques, Plant Leaves microbiology, Species Specificity, Spores, Fungal growth & development, Spores, Fungal physiology, Spores, Fungal ultrastructure, Wood, Air Microbiology, Fresh Water microbiology, Fungi classification, Fungi growth & development, Tropical Climate

Abstract

Two new aeroaquatic fungi, Ramicephala sphaerospora gen. sp. nov. and Beverwykella clathrata sp. nov., are described and illustrated from tropical and subtropical latitudes. B. clathrata, a species similar to B. cerebriformis, deviates from the latter in having a clathrate outermost cell layer instead of tightly appressed cells, a feature unique in Beverwykella. The second species, Ramicephala sphaerospora gen. sp. nov., has a unique combination of features concerning conidial ontogeny and morphology, and is therefore placed in a new genus. The genus most similar to Ramicephala is Beverwykella, from which it differs in having: (1) globose, non-flattened conidia; (2) a large central globose cell giving rise to centrifugally branching, tightly packed chains of cells; and (3) a compact peripheral cell layer, the cells of which are tightly interlocked in a zipper-like form. Similarities of R. sphaerospora to species of Pseudaegerita, Candelabrum and Cristulariella are discussed. Illustrations of and a key to all described species of Ramicephala and Beverwykella are provided.

Published

2003