Your search keyword '"Thines M"' showing total 8 results

1. Ducellieriales ord. nov. and evidence for a novel clade of endobiotic pollen-infecting "lagenidiaceous" Peronosporomycetes.

Author

Buaya, A. T. and Thines, M.

Subjects

*OOMYCETES, *FUNGAL phylogeny, *PARASITES, *THALLUS, *LAGENIDIUM

Abstract

The genus Ducellieria (Ducellieriaceae) contains three species (D. chodatii, D. tricuspidata, D. corcontica), and a single variety (D. chodatii var. armata) of obligate endobiotic pollen parasites. These organisms have been first assigned to the green alga genus Coelastrum, as they form very similar spherical structures, but the observation of heterokont zoospores has led to their reclassification to the phylum Oomycota. However, despite their widespread nature, these organisms are only known from their descriptive morphology, and life cycle traits of some species still remain incompletely known. Only the type species, D. chodatii, has been rediscovered several times, but the phylogeny of the genus remains unresolved, since none of its species has been studied for their molecular phylogeny. At present the genus is still included in some algal databases. To clarify the evolutionary affiliation of Ducellieria, efforts were undertaken to isolate D. chodatii from pollen grains, to infer its phylogenetic placement based on nrSSU sequences. By targeted isolation, the pollen endoparasitoid was rediscovered from three lakes in Germany (Mummelsee, Okertalsperre, Knappensee). Apart from the typical coelastrum-like spheroids, oomycetes sporulating directly from pollen grains in a lagenidium-like fashion were observed, and molecular sequences of both types of oomycetes were obtained. Phylogenetic reconstruction revealed that coelastrum-like and lagenidium-like forms are unrelated, with the former embedded within the deep branching early-diverging lineages, and the later stage forming a distinct clade in Peronosporales. Consequently, the life cycle of D. chodatii needs careful revision using single-spore isolates of the species, to infer if previous lifecycle reconstructions that involve various different thallus types are stages of a single species or potentially of several ones. [ABSTRACT FROM AUTHOR]

Published

2023

2. Adding a missing piece to the puzzle of oomycete phylogeny: the placement of Rhipidium interruptum (Rhipidiaceae).

Author

Tsai, I. and Thines, M.

Subjects

*OOMYCETES, *MOLECULAR phylogeny, *SAPROPHYTES, *FUNGAL phylogeny, *EPITOPES

Abstract

Oomycetes are a group of fungus-like organisms, which phylogenetically comprise early diverging lineages that are mostly holocarpic, and two crown classes, the Peronosporomycetes and Saprolegniomycetes, including many well-investigated pathogens of plants and animals. However, there is a poorly studied group, the Rhipidiales, which placement amongst the crown oomycetes is ambiguous. It accommodates several taxa with a sophisticated vegetative and reproductive cycle, as well as structural organisation, that is arguably the most complex in the oomycete lineage. Despite the remarkable morphological complexity and their notable perseverance in the face of faster-growing saprotrophic oomycetes and fungi, the knowledge on Rhipidiales is limited to date, as the most complex members are not easily cultured, even by targeted approaches. This also leads to inadequate sequence data for the order, which was sourced from only the two least complex out of seven introduced genera, i.e. Sapromyces and Salispina. In the present study, ex-situ baiting was done using various fruit substrates, and naturallyshed twigs or fruits acquired from water bodies were examined. As a result of these efforts, the species Rhipidium interruptum was obtained and gross cultivation was accomplished using poplar (Populus nigra) twigs as substrate, which allowed further documentation of both asexual and sexual reproduction. This enabled phylogenetic and detailed morphological study, as well as an epitypification of the species. Phylogenetic analyses based on cox2 and nrLSU sequences revealed Rhipidium as the sister genus of Sapromyces. The morphological studies done support a conspecificity of R. interruptum and R. continuum, which might in turn be conspecific with R. americanum. Though several further studies will be required to fit the scattered missing pieces of knowledge on Rhipidiales together revealing a more complete picture of oomycete evolution, we hope that the current study can serve as a cornerstone for future investigations in the group. [ABSTRACT FROM AUTHOR]

Published

2023

3. Transient expression of gfp in the obligate biotrophic oomycete Plasmopara halstedii using electroporation and a mechanoperforation method.

Author

Hammer, T. R., Thines, M., and Spring, O.

Subjects

*GREEN fluorescent protein, *SUNFLOWERS, *OOMYCETES, *PLANT cells & tissues, *BREMIA lactucae, *ELECTROPORATION, *DOWNY mildew diseases

Abstract

Studying plant biotrophic oomycetes is difficult, because they depend on living plant cells for nutrition, which necessitates investigations in planta. Internal optical labelling is a powerful tool for analysing intra- and interspecific interactions. Different approaches are described for establishing a gfp-transformation system for Plasmopara halstedii, the causal agent of sunflower downy mildew. A vector containing gfp and the oomycete-specific ham34 regulators from Bremia lactucae was constructed for transformation experiments. Particle bombardment of infected sunflower cotyledons during different developmental stages of the pathogen did not result in successful transformation. In contrast, transient gfp expression in sporangia was achieved using electroporation. However, gfp expression was lost during the subsequent round of infection. A novel transformation method for biotrophic organisms in planta employing mechanoperforation – so-called Löchern–resulted in sporangiophores of P. halstedii transiently expressing gfp and emerging distant from the site of transformation. The new technique is advantageous compared with others as the transformed hyphae can recover during their vegetative growth, before reproductive structures occur. This first step lays an important foundation for further investigations of obligate biotrophic organisms. [ABSTRACT FROM AUTHOR]

Published

2007

4. Characteristics of Pustula tragopogonis (syn. Albugo tragopogonis) Newly Occurring on Cultivated Sunflower in Germany.

Author

Thines, M., Zipper, R., Schäuffele, D., and Spring, O.

Subjects

*ALBUGINACEAE, *PERONOSPORALES, *SUNFLOWERS, *PHYTOPATHOGENIC fungi, *PATHOGENIC fungi, *PHYTOPATHOGENIC microorganisms, *FUNGAL diseases of plants, *SCANNING electron microscopy

Abstract

In temperate climates, Pustula tragopogonis is rarely found on cultivated sunflower. In Europe, it was so far of little economic impact on other Asteraceae, except for some regions in the Mediterranean. In 2003, P. tragopogonis was found for the first time in sunflower fields in southern Germany. The pathogen has a widespread occurrence there, especially in the region around Stuttgart, BW. Fatty acid profiling, ultrastructural investigation and ITS sequencing revealed a high similarity to an 2002 isolate from southern Africa and an 2005 isolate from Australia, but revealed significant differences to P. tragopogonis s.l. on Cirsium arvense, a common weed, growing on or in the vicinity of sunflower fields in Germany. P. tragopogonis from this host can therefore be excluded from being the source of the reported infection. [ABSTRACT FROM AUTHOR]

Published

2006

5. Single host plant species may harbour more than one species of Peronospora – a case study on Peronospora infecting Plantago.

Author

Mu, M., Choi, Y.-J., Kruse, J., Crouch, J. A., Ploch, S., and Thines, M.

Subjects

*DOWNY mildew diseases, *PHYTOPATHOGENIC microorganisms, *HOST plants, *CROPS, *PLANT species

Abstract

The genus Peronospora is the largest genus of the oomycetes, fungus-like members of the kingdom Straminipila that also contains amoeboid (e.g., Leukarachnion) and plant-like (e.g., Laminaria) lifeforms. Peronospora species are obligate biotrophic plant pathogens, causing high economic losses in various crops and ornamentals, including Plantago species. Several species of Plantago are used as speciality crops and medicinal plants. In this study, Peronospora species parasitic on Plantago were investigated based on morphology and phylogenetic analyses using two nuclear (ITS, nrLSU) loci and one mitochondrial (cox2) locus. As a result of these investigations, 10 new species are added to the already known Peronospora species on Plantago. Interestingly, it was found that four independent species are parasitic to Plantago major, highlighting that the reliance on the host plant for pathogen determination can be misleading in Peronospora. Taking this into account, morphological and phylogenetic analyses should be conducted as a prerequisite for effective quarantine regulations and phytosanitary measures. [ABSTRACT FROM AUTHOR]

Published

2024

6. Broad host range species in specialised pathogen groups should be treated with suspicion - a case study on Entyloma infecting Ranunculus.

Author

Kruse, J., Piątek, M., Lutz, M., and Thines, M.

Subjects

*HOST specificity (Biology), *RANUNCULUS, *SMUT fungi, *ANGIOSPERMS, *FUNGAL phylogeny, *FUNGAL morphology

Abstract

Plant pathogenic smut fungi in the broader sense can be divided into the Ustilaginomycetes, which cause classical smut symptoms with masses of blackish spores being produced in a variety of angiosperms, and the Exobasidiomycetes, which are often less conspicuous, as many do not shed large amounts of blackish spores. The leaf-spot causing members of the genus Entyloma (Entylomatales, Exobasidiomycetes) belong to the latter group. Currently, 172 species that all infect eudicots are included in the genus. Vánky (2012) recognised five Entyloma species on species of Ranunculus s.lat. Two have been reported only from Ficaria verna s.lat., while three, E. microsporum, E. ranunculi-repentis, E. verruculosum, have been reported to have a broad host range, encompassing 30, 26, and 5 species of Ranunculus, respectively. This broad host range is in contrast to the generally high host specificity assumed for species of Entyloma, indicating that they may represent complexes of specialised species. The aim of this study was to investigate Entyloma on Ranunculus s.lat. using multigene phylogenies and morphological comparisons. Phylogenetic analyses on the basis of up to four loci (ITS, atp2, ssc1, and map) showed a clustering of Entyloma specimens according to host species. For some of these Entyloma lineages, names not currently in use were available and reinstated. In addition, Entyloma microsporum s.str. is neotypified. Six novel species are described in this study, namely, Entyloma jolantae on Ranunculus oreophilus, E. klenkei on R. marginatus, E. kochmanii on R. lanuginosus, E. piepenbringiae on R. polyanthemos subsp. nemorosus (type host) and R. repens, E. savchenkoi on R. paludosus, and E. thielii on R. montanus. For all species diagnostic bases and morphological characteristics are provided. The results in this study once more highlight the importance of detailed re-investigation of broad host-range pathogens of otherwise specialised plant pathogen groups. [ABSTRACT FROM AUTHOR]

Published

2018

7. Coincidence of virulence shifts and population genetic changes of Pseudoperonospora cubensis in the Czech Republic.

Author

Kitner, M., Lebeda, A., Sharma, R., Runge, F., Dvořák, P., Tahir, A., Choi, Y.‐J., Sedláková, B., and Thines, M.

Subjects

*POPULATION genetics, *PSEUDOPERONOSPORA, *OOMYCETES, *CUCURBITACEAE, *GENETICS, *SPECIES hybridization

Abstract

Pseudoperonospora cubensis is an oomycete pathogen causing downy mildew disease on a variety of Cucurbitaceae, and has recently re-emerged as a destructive disease on crops in this family, mainly on cucumber and squash. Multilocus sequence analysis ( MLSA) of four mitochondrial and two nuclear DNA regions was used to detect changes in the genetic structure of P. cubensis populations occurring in the Czech Republic that might be associated with recently reported shifts in virulence. The analysed sample set contains 67 P. cubensis isolates collected from 1995 to 2012 in the Czech Republic and some other European countries. Sequence analyses revealed differences and changes in the genetic backgrounds of P. cubensis isolates. While all isolates sampled before 2009 exhibited the genotype of the subspecies of Clade II and were collected from cucumber, all samples collected from other hosts belonged to Clade I ( P. cubensis sensu stricto) or were sampled from 2009 onwards. In addition, 67·16% of all post-2009 isolates from Clade II had two heterozygous positions in their nr ITS sequence, which suggests sexual reproduction and/or a mutational origin. Thus, the results indicate that, apart from the rise in prevalence of Clade I, the change in the genetic structure of P. cubensis populations may be linked with a hybridization or, less likely, a mutation event that rendered strains able to infect a broader spectrum of host species. [ABSTRACT FROM AUTHOR]

Published

2015

8. The Genetic Structure of Pseudoperonospora cubensis Populations.

Author

Quesada-Ocampo, L. M., Granke, L. L., Olsen, J., Gutting, H. C., Runge, F., Thines, M., Lebeda, A., and Hausbeck, M. K.

Subjects

*PSEUDOPERONOSPORA, *PHYTOPATHOGENIC microorganisms, *CUCURBITACEAE, *FUNGICIDES, *PLANT population genetics, *PLANT variation, *CULTIVARS

Abstract

Pseudoperonospora cubensis is a destructive foliar pathogen of economically important cucurbitaceous crops in the United States and worldwide. In this study, we investigated the genetic structure of 465 P. cubensis isolates from three continents, 13 countries, 19 states of the United States, and five host species using five nuclear and two mitochondrial loci. Bayesian clustering resolved six genetic clusters and suggested some population structure by geographic origin and host, because some clusters occurred more or less frequently in particular categories. All of the genetic clusters were present in the sampling from North America and Europe. Differences in cluster occurrence were observed by country and state. Isolates from cucumber had different cluster composition and lower genetic diversity than isolates from other cucurbits. Because genetic structuring was detected, isolates that represent the genetic variation in P. cubensis should be used when developing diagnostic tools, fungicides, and resistant host varieties. Although this study provides an initial map of global population structure of P. cubensis, future genotyping of isolates could reveal population structure within specific geographic regions, across a wider range of hosts, or during different time points during the growing season. [ABSTRACT FROM AUTHOR]

Published

2012