Eva Streiblová scite author profile

The terms 'brûlé' and 'burnt' are used to describe vegetation-devoid areas of the ground around a range of woody plants interacting with certain truffle species. Increasing interest is currently focused on a systematic search for and study of volatile organic compounds (VOCs) emitted by truffles in the course of their life cycle. These metabolites are now recognized as biochemicals with an important impact on burnt formation. Based on current molecular approaches, Tuber melanosporum is emerging as an aggressive colonizer of the brûlé, dominant in competition with indigenous brûlé-associated organisms, suppressing their richness and biodiversity. There is compelling evidence that mycelia, mycorrhizae, and fruiting bodies of brûlé-forming truffles have evolved diffusible metabolites for their survival, typically characterized as having harmful effects on weeds, impairing seed germination, altering root morphogenesis and plant hormonal balance, or inhibiting the native rhizospheric microflora regularly associated with the brûlé. These effects can be widely interpreted as allelopathic phenomena, and the brûlé may thus be regarded as a promising opportunity to study truffle allelopathy. Considering the outstanding success of the genome analysis in T. melanosporum, we are facing a very difficult task to proceed from the molecular to the ecological level.

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Tubulin and Actin Topology during Zygote Formation of Saccharomyces cerevisiae

Hašek

Rupeš²,

Svobodová³

et al. 1987

Microbiology

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The topology of tubulin and actin during mating of Saccharomyces cerevisiae was analysed by fluorescence microscopy with the monoclonal anti-tubulin antibody Tu01 and rhodamine-labelled phalloidin. Preconjugatory cells displayed an asymmetric distribution of the microtubule and actin cytoskeleton and an overall polarization of the cells preceding cell fusion. Prior to karyogamy, the haploid spindle pole bodies were associated with abundant cytoplasmic microtubules. Budding zygotes revealed the same tubulin and actin patterns as vegetative cells. Treatment of the mating mixture with the microtubule inhibitor nocodazole (10 micrograms ml-1) did not prevent polarization and fusion of haploids, zygote formation and emergence of the first zygotic bud. In marked contrast, the migration of the nucleus in preconjugatory cells as well as nuclear migration and fusion within the zygotes was unequivocally blocked by the action of the drug. It is suggested that the problem of the morphogenesis of mating should be approached by considering interactions at the cell periphery.

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F-actin contractile rings in protoplasts of the yeast

Jochová¹,

Rupeš²,

Streiblová³

1991

Cell Biology International Reports

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By rhodamine-phalloidin fluorescence, distinct continuous F-actin rings were visualized in 18-20% of the protoplasts of Schizosaccharomyces pombe and S. japonicus var. versatilis, in addition to randomly distributed F-actin dots. Whereas the reversion of ring-lacking protoplasts coincided with the polarization of the dotted F-actin pattern, the ring-containing protoplasts became furrowed as the F-actin rings constricted. The furrowing was more conspicuous in S. japonicus var. versatilis than in S. pombe protoplasts and it was blocked when the reversion was inhibited by Novozyme 234 indicating that the cell wall formation is essential for the F-actin ring constriction.

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A quest for indigenous truffle helper prokaryotes

Gryndler

Soukupová

Hršelová

et al. 2012

Environ Microbiol Rep

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Tuber aestivum is the most common European truffle with significant commercial exploitation. Its production originates from natural habitats and from artificially inoculated host tree plantations. Formation of Tuber ectomycorrhizae in host seedling roots is often inefficient. One possible reason is the lack of indigenous associative microbes. Here we aimed at metagenetic characterization and cultivation of indigenous prokaryotes associated with T. aestivum in a field transect cutting through the fungus colony margin. Several operational taxonomic units (OTUs) showed close association with the T. aestivum in the ectomycorrhizae and in the soil, but there was no overlap between the associative prokaryotes in the two different habitats. Among those positively associated with the ectomycorrhizae, we identified several bacterial genera belonging to Pseudonocardineae. Extensive isolation efforts yielded many cultures of ectomycorrhizae-associative bacteria belonging to Rhizobiales and Streptomycineae, but none belonging to the Pseudonocardineae. The specific unculturable Tuber-associated prokaryotes are likely to play important roles in the biology of these ectomycorrhizal fungi, including modulation of competition with other symbiotic and saprotrophic microbes, facilitation of root penetration and/or accessing mineral nutrients in the soil. However, the ultimate proof of this hypothesis will require isolation of the microbes for metabolic studies, using novel cultivation approaches.

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Eva Streiblová

Truffle brûlé: an efficient fungal life strategy

Tubulin and Actin Topology during Zygote Formation of Saccharomyces cerevisiae

F-actin contractile rings in protoplasts of the yeast

A quest for indigenous truffle helper prokaryotes

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