Your search keyword '"Murvai, Katalin"' showing total 3 results

1. The bacterial and yeast microbiota in livestock forages in Hungary.

Author

Murvai, Katalin Pappné, Rácz, Hanna Viktória, Horváth, Enikő, Németh, Bálint, Imre, Alexandra, Pereira, Kadmiel Naliel Oliveira, Antunovics, Zsuzsa, Peles, Ferenc, Sipos, Péter, Béri, Béla, Pusztahelyi, Tünde, Pócsi, István, and Pfliegler, Walter P.

Subjects

FEED additives, ANIMAL culture, MICROBIAL diversity, ANIMAL feeds, BACTERIAL communities, SACCHAROMYCES

Abstract

Background: Along bacteria, yeasts are common in forages and forage fermentations as spoilage microbes or as additives, yet few studies exist with species-level data on these fungi's occurrence in feedstuff. Active dry yeast and other yeast-based products are also common feed additives in animal husbandry. Here, we aimed to characterize both fermented and non-fermented milking cow feedstuff samples from Hungary to assess their microbial diversity in the first such study from Central Europe. Results: We applied long-read bacterial metabarcoding to 10 fermented and 25 non-fermented types of samples to assess bacterial communities and their characteristics, surveyed culturable mold and yeast abundance, and identified culturable yeast species. Fermented forages showed the abundance of Aerococcaceae, Bacillaceae, Brucellaceae, Lactobacillaceae, Staphylococcaceae, and Thermoactinomycetaceae, non-fermented ones had Cyanothecaceae, Enterobacteriaceae, Erwiniaceae, Gomontiellaceae, Oxalobacteraceae, Rhodobiaceae, Rickettsiaceae, and Staphylococcaceae. Abundances of bacterial families showed mostly weak correlation with yeast CFU numbers, only Microcoleaceae (positive) and Enterococcaceae and Alcaligenaceae (negative correlation) showed moderate correlation. We identified 14 yeast species, most commonly Diutina rugosa, Pichia fermentans, P. kudriavzevii, and Wickerhahomyces anomalus. We recorded S. cerevisiae isolates only from animal feed mixes with added active dry yeast, while the species was completely absent from fermented forages. The S. cerevisiae isolates showed high genetic uniformity. Conclusion: Our results show that both fermented and non-fermented forages harbor diverse bacterial microbiota, with higher alpha diversity in the latter. The bacterial microbiome had an overall weak correlation with yeast abundance, but yeasts were present in the majority of the samples, including four new records for forages as a habitat for yeasts. Yeasts in forages mostly represented common species including opportunistic pathogens, along with a single strain of Saccharomyces used as a feed mix additive. [ABSTRACT FROM AUTHOR]

Published

2024

2. FvmnSOD is involved in oxidative stress defence, mitochondrial stability and apoptosis prevention in Fusarium verticillioides.

Author

Szabó, Zsuzsa, Pákozdi, Klaudia, Murvai, Katalin, Kecskeméti, Ádám, Oláh, Viktor, Logrieco, Antonio F., Madar, Anett, Dienes, Beatrix, Csernoch, László, Emri, Tamás, Hornok, László, Pócsi, István, and Leiter, Éva

Subjects

GIBBERELLA fujikuroi, MITOCHONDRIA, APOPTOSIS, OXIDATIVE stress, DELETION mutation

Abstract

Superoxide dismutases are key enzymes in elimination of the superoxide anion radical (O2•−) generated intracellularly or by exogenous oxidative stress eliciting agents, like menadione. In this study, we investigated the physiological role of the manganese superoxide dismutase‐encoding gene in Fusarium verticillioides via the construction of a gene deletion mutant, ΔFvmnSOD and comparing its phenotype with that of the wild‐type parental strain and a ΔFvmnSOD′ C strain, complemented with the functional manganese superoxide dismutase gene. Deletion of FvmnSOD had no effect on the relative intracellular superoxide ratio but increased the sensitivity of the fungus to menadione sodium bisulphite on Czapek‐Dox stress agar plates. The lack of FvmnSOD caused changes in mitochondrial morphology and physiology: The volumetric ratio of these cell organelles in the second hyphal segment, as well as the total, the KCN‐sensitive cytochrome c‐dependent and the KCN+SHAM (salicylhidroxamic acid)‐resistant residual respiration rates, were higher in the mutant as compared to the wild‐type and the complemented strains. Nevertheless, changes in the respiration rates were attributable to the higher volumetric ratio of mitochondria found in the gene deletion mutant. Changes in the mitochondrial functions also brought about higher sensitivity to apoptotic cell death elicited by the Penicillium chrysogenum antifungal protein. The gene deletion mutant developed significantly thinner hyphae in comparison to the wild‐type strain. Deletion of FvmnSOD had no effect on fumonisin B1 and B2 production of the fungus grown in Myro medium as a static culture. [ABSTRACT FROM AUTHOR]

Published

2020

3. FvatfA regulates growth, stress tolerance as well as mycotoxin and pigment productions in Fusarium verticillioides.

Author

Szabó, Zsuzsa, Pákozdi, Klaudia, Murvai, Katalin, Pusztahelyi, Tünde, Kecskeméti, Ádám, Gáspár, Attila, Logrieco, Antonio F., Emri, Tamás, Ádám, Attila L., Leiter, Éva, Hornok, László, and Pócsi, István

Subjects

GIBBERELLA fujikuroi, ASPERGILLUS nidulans, PIGMENTS, BIOMASS production, CAROTENOIDS, FRUIT yield, TRANSCRIPTION factors

Abstract

FvatfA from the maize pathogen Fusarium verticillioides putatively encodes the Aspergillus nidulans AtfA and Schizasaccharomyces pombe Atf1 orthologous bZIP-type transcription factor, FvAtfA. In this study, a ΔFvatfA deletion mutant was constructed and then genetically complemented with the fully functional FvatfA gene. Comparing phenotypic features of the wild-type parental, the deletion mutant and the restored strains shed light on the versatile regulatory functions played by FvAtfA in (i) the maintenance of vegetative growth on Czapek-Dox and Potato Dextrose agars and invasive growth on unwounded tomato fruits, (ii) the preservation of conidiospore yield and size, (iii) the orchestration of oxidative (H2O2, menadione sodium bisulphite) and cell wall integrity (Congo Red) stress defences and (iv) the regulation of mycotoxin (fumonisins) and pigment (bikaverin, carotenoid) productions. Expression of selected biosynthetic genes both in the fumonisin (fum1, fum8) and the carotenoid (carRA, carB) pathways were down-regulated in the ΔFvatfA strain resulting in defected fumonisin production and considerably decreased carotenoid yields. The expression of bik1, encoding the polyketide synthase needed in bikaverin biosynthesis, was not up-regulated by the deletion of FvatfA meanwhile the ΔFvatfA strain produced approximately ten times more bikaverin than the wild-type or the genetically complemented strains. The abolishment of fumonisin production of the ΔFvatfA strain may lead to the development of new-type, biology-based mycotoxin control strategies. The novel information gained on the regulation of pigment production by this fungus can be interesting for experts working on new, Fusarium-based biomass and pigment production technologies. Key points • FvatfA regulates vegetative and invasive growths of F. verticillioides. • FvatfA also orchestrates oxidative and cell wall integrity stress defenses. • The ΔFvatfA mutant was deficient in fumonisin production. • FvatfA deletion resulted in decreased carotenoid and increased bikaverin yields. [ABSTRACT FROM AUTHOR]

Published

2020