Polona Zalar

Publications (13)25.09 Total impact

• Article: Cryptococcus species (Tremellales) from glacial biomes in the southern (Patagonia) and northern (Svalbard) hemispheres.

  Virginia de Garcia, Polona Zalar, Silvia Brizzio, Nina Gunde-Cimerman, María van Broock
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  ABSTRACT: Cryptococcus species (Basidiomycota) were isolated as the predominant yeast from glacial biomes of both Patagonia (Argentina) and the Svalbard archipelago (Norway). For a selected group of Cryptococcus belonging to Tremellales, assimilative profile, production of extracellular hydrolytic enzymes and ribosomal DNA internal transcribed spacer and large subunit (D1/D2) sequences were analysed. Cryptococcus victoriae, which was originally described from Antarctica, was the most frequently found species at both locations. High variability within the species was observed and described at the genotypic and phenotypic levels, two newly described species were found in both Patagonia and Svalbard: Cryptococcus fonsecae and Cryptococcus psychrotolerans. Two other new species were found only in Patagonia: Cryptococcus frias and Cryptococcus tronadorensis. Three additional new taxa were found, but they are not named as they were only represented by single isolates.
  FEMS Microbiology Ecology 08/2012; 82(2):523-39. · 3.41 Impact Factor
• Article: The mycobiota of the salterns.

  Janja Zajc, Polona Zalar, Ana Plemenitaš, Nina Gunde-Cimerman
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  ABSTRACT: Solar salterns are constructed as shallow multi-pond systems for the production of halite through evaporation of seawater. The main feature of salterns is the discontinuous salinity gradient that provides a range of well-defined habitats with increasing salinities, from moderate to hypersaline. These present one of the most extreme environments, because of the low levels of biologically available water and the toxic concentrations of ions. Up to the year 2000, hypersaline environments were considered to be populated almost exclusively by prokaryotic microorganisms till fungi were reported to be active inhabitants of solar salterns. Since then, numerous fungal species have been described in hypersaline waters around the world. The mycobiota of salterns is represented by different species of the genus Cladosporium and the related meristematic melanized black yeasts, of non-melanized yeasts, of the filamentous genera Penicillium and Aspergillus and their teleomorphic forms (Eurotium and Emericella), and of the basidiomycetous genus Wallemia. Among these, two species became new model organisms for studying the mechanisms of extreme salt tolerance: the extremely halotolerant ascomycetous black yeast Hortaea werneckii and the obligate halophilic basidiomycete Wallemia ichthyophaga.
  Progress in molecular and subcellular biology 01/2012; 53:133-58.
• Source

  Available from: Sharon A Cantrell

  Article: Unusual fungal niches.

  S A Cantrell, J C Dianese, J Fell, N Gunde-Cimerman, P Zalar
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  ABSTRACT: Fungi are found in all aerobic ecosystems, colonizing a diversity of substrates and performing a wide diversity of functions, some of which are not well understood. Many spices of fungi are cosmopolitan and generalists or habitats. Unusual fungal niches are habitats where extreme conditions would be expected to prevent the development of a mycobiota. In this review we describe five unusual fungal habitats in which fungi occupy poorly understood niches: Antarctic dry valleys, high Arctic glaciers, salt flats and salterns, hypersaline microbial mats and plant trichomes. Yeasts, black yeast-like fungi, melanized filamentous species as well as representatives of Aspergillus and Penicillium seem to be dominant among the mycobiota adapted to cold and saline niches. Plant trichomes appear to be a taxa. The advent of new sequencing technologies is helping to elucidate the microbial diversity in many ecosystems, but more studies are needed to document the functional role of fungi in the microbial communities thriving in these unusual environments.
  Mycologia 06/2011; 103(6):1161-74. · 2.03 Impact Factor
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  Available from: Nina Gunde-cimerman

  Article: Low water activity induces the production of bioactive metabolites in halophilic and halotolerant fungi.

  Kristina Sepcic, Polona Zalar, Nina Gunde-Cimerman
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  ABSTRACT: The aim of the present study was to investigate indigenous fungal communities isolated from extreme environments (hypersaline waters of solar salterns and subglacial ice), for the production of metabolic compounds with selected biological activities: hemolysis, antibacterial, and acetylcholinesterase inhibition. In their natural habitats, the selected fungi are exposed to environmental extremes, and therefore the production of bioactive metabolites was tested under both standard growth conditions for mesophilic microorganisms, and at high NaCl and sugar concentrations and low growth temperatures. The results indicate that selected halotolerant and halophilic species synthesize specific bioactive metabolites under conditions that represent stress for non-adapted species. Furthermore, adaptation at the level of the chemical nature of the solute lowering the water activity of the medium was observed. Increased salt concentrations resulted in higher hemolytic activity, particularly within species dominating the salterns. The appearance of antibacterial potential under stress conditions was seen in the similar pattern of fungal species as for hemolysis. The active extracts exclusively affected the growth of the Gram-positive bacterium tested, Bacillus subtilis. None of the extracts tested showed inhibition of acetylcholinesterase activity.
  Marine Drugs 01/2010; 9(1):43-58. · 3.85 Impact Factor
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  Available from: Nina Gunde-cimerman

  Article: Extremotolerance in fungi: evolution on the edge.

  Cene Gostincar, Martin Grube, Sybren de Hoog, Polona Zalar, Nina Gunde-Cimerman
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  ABSTRACT: Our planet offers many opportunities for life on the edge: high and low temperatures, high salt concentrations, acidic and basic conditions and toxic environments, to name but a few extremes. Recent studies have revealed the diversity of fungi that can occur in stressful environments that are hostile to most eukaryotes. We review these studies here, with the additional purpose of proposing some mechanisms that would allow for the evolutionary adaptation of eukaryotic microbial life under extreme conditions. We focus, in particular, on life in ice and life at high salt concentrations, as there is a surprising similarity between the fungal populations in these two kinds of environments, both of which are characterized by low water activity. We propose steps of evolution of generalist species towards the development of specialists in extreme habitats. We argue that traits present in some fungal groups, such as asexuality, synthesis of melanin-like pigments and a flexible morphology, are preadaptations that facilitate persistence and eventual adaptation to conditions on the ecological edge, as well as biotope switches. These processes are important for understanding the evolution of extremophiles; moreover, they have implications for the emergence of novel fungal pathogens.
  FEMS Microbiology Ecology 10/2009; 71(1):2-11. · 3.41 Impact Factor
• Article: Ability of fungi to degrade synthetic polymer nylon-6.

  Jozefa Friedrich, Polona Zalar, Martina Mohorcic, Ursa Klun, Andrej Krzan
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  ABSTRACT: Fifty-eight fungi have been tested for their ability to degrade a recalcitrant synthetic polymer polyamide-6, generally known as nylon-6. Most of them were isolated from a factory producing nylon-6. After preliminary screening, 12 strains were selected for submerged culture in a medium with nylon fibres as the only N-source. No degradation was observed with the isolates from the factory. Wood degrading fungi from a culture collection, however, degraded nylon after incubation for several weeks. Bjerkandera adusta disintegrated the fibres most efficiently, starting with the small transverse grooves, which deepened into cracks. The superficial layers crumbled to leave a thin inner core of the fibre, which finally broke down into fragments. The remaining insoluble part of the nylon showed a decrease in number average molecular mass from 16900 to 5600 during a 60-day incubation. Its thermal properties, such as shifts in melting points and broadening of the melting endotherms, were altered. The reduction of the amount of nylon and the composition of the liquid phase indicated that part of the polymer was degraded into soluble products. After 50 days, the total nitrogen content of the soluble fraction was 10-fold higher than in the control sample. Manganese peroxidase, presumably responsible for the degradation, was detected in the liquid phase. The study shows that only white rot fungi are able to break down nylon-6. For the first time this polymer was shown to be disrupted by B. adusta. The extent of the biodegradation indicates its potential for application in nylon waste reduction.
  Chemosphere 06/2007; 67(10):2089-95. · 3.21 Impact Factor
• Source

  Available from: Nina Gunde-cimerman

  Article: Taxonomy and phylogeny of the xerophilic genus Wallemia (Wallemiomycetes and Wallemiales, cl. et ord. nov.).

  Polona Zalar, G Sybren de Hoog, Hans-Josef Schroers, John Michael Frank, Nina Gunde-Cimerman
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  ABSTRACT: The genus Wallemia comprises xerophilic species. Based on parenthesome ultrastructure it has been linked to the Filobasidiales (basidiomycetes). Species show a unique type of conidiogenesis, including basauxic development of fertile hyphae, segregation of conidial units more or less basipetally, and disarticulation of conidial units into mostly four arthrospore-like conidia. Wallemia is known from air, soil, dried food (causing spoilage), and salt. It can be isolated from hypersaline water of man-made salterns on different continents. Based on analyses of the nuclear small subunit ribosomal DNA (SSU rDNA) Wallemia has been placed into a highly supported clade together with Ustilaginomycetes and Hymenomycetes (Basidiomycota). Within this clade, it possesses an isolated position distantly related to the Filobasidiales and was characterized by numerous nucleotide substitutions not shared by any other fungus. Tests on xerotolerance indicated that Wallemia presents one of the most xerophilic fungal taxa. Xerotolerance is otherwise rare in the Basidiomycota. To acknowledge its unique morphology, evolution, and xerotolerance, a new basidiomycetous class Wallemiomycetes covering an order Wallemiales, is proposed. Based on differences in conidial size, xerotolerance, and sequence data of the rDNA internal transcribed spacer regions (ITS rDNA), at least three Wallemia species are segregated, identified as Wallemia ichthyophaga, Wallemia sebi, and Torula epizoa var. muriae, for which the combination Wallemia muriae is proposed. The three species are neotypified. Wallemia ichthyophaga differs from W. sebi and W. muriae in numerous nucleotides of the SSU and ITS rDNA. This high variation within Wallemia indicates existence of at least two cryptic genera not distinguishable by morphological characters.
  Antonie van Leeuwenhoek 06/2005; 87(4):311-28. · 2.09 Impact Factor
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  Available from: Nina Gunde-cimerman

  Article: The genus Eurotium - members of indigenous fungal community in hypersaline waters of salterns.

  Lorena Butinar, Polona Zalar, Jens C Frisvad, Nina Gunde-Cimerman
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  ABSTRACT: Six different species of the known teleomorphic food-borne xerophilic genus Eurotium were repeatedly isolated in a mycodiversity study of hypersaline waters. At salinities above 17% NaCl, E. amstelodami was detected most consistently, followed by E. repens and E. herbariorum, while E. rubrum, E. chevalieri and a potentially new species, "Eurotium halotolerans", were detected only occasionally at lower salinities. The qualitative secondary metabolite profiles produced by Eurotium spp. from salterns were not different from those of Eurotium spp. from foods and other habitats. Spatiotemporal frequency of occurrence and in vitro determined adaptive ability of propagules to survive prolonged exposure to hypersaline conditions indicate that E. amstelodami, E. herbariorum, and E. repens contribute to the indigenous fungal community in hypersaline water environments, while E. rubrum, E. chevalieri and "E. halotolerans" are only temporal inhabitants of brine at lower salinities.
  FEMS Microbiology Ecology 02/2005; 51(2):155-66. · 3.41 Impact Factor
• Chapter: Halotolerant and Halophilic Fungi from Coastal Environments in the Arctics

  Nina Gunde-Cimerman, Lorena Butinar, Silva Sonjak, Martina Turk, Viktor Uršič, Polona Zalar, Ana Plemenitaš
  12/2004: pages 397-423;
• Chapter: Relation of Halotolerance to Human-Pathogenicity in the Fungal Tree of Life: An Overview of Ecology and Evolution under Stress

  Sybren De Hoog, Polona Zalar, Bert Gerrits Van Den Ende, Nina Gunde-Cimerman
  12/2004: pages 371-395;
• Source

  Available from: Nina Gunde-cimerman

  Article: Mycoflora of cave cricket Troglophilus neglectus cadavers

  Nina Gunde-Cimerman, Polona Zalar, Sonja Jeram
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  ABSTRACT: By using different techniques and media, microfungi were isolated from cadavers of the cave cricket Troglophilus neglectus, collected on the walls of a Slovenian cave. The isolated mycobiota was consistently different for adult and larval stages of T. neglectus cadavers. Fungi isolated with the highest frequency from the larval stage were represented by five different species of the genus Mucor, the prevailing one being a newly described species, M. troglophilus. The dominating fungus isolated from the adult stage was the well-known fungal entomopathogen Beauveria bassiana. The other isolated fungi were mainly primary and secondary saprotrophic colonizers.
  Mycopathologia 01/1998; 141(2):111-114. · 1.65 Impact Factor
• Article: Four new species of Emericella from the Mediterranean region of Europe.

  Polona Zalar, Jens C Frisvad, Nina Gunde-Cimerman, János Varga, Robert A Samson
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  ABSTRACT: Four new species of Emericella, E. discophora, E. filifera, E. olivicola and E. stella-maris, are proposed. Their new taxonomic status was determined applying a polyphasic taxonomic approach using phenotypic (morphology and extrolite profiles) and molecular (sequences of ITS, beta-tubulin and calmodulin genes) characters. Ascospores of E. stella-maris and E. olivicola have star-shape equatorial crests, those of E. filifera form long appendages that emerge radially from narrow stellate crests and those of E. discophora produce wide and entire, nonstellate equatorial crests. E. stella-maris originated from leaf litter in Tunisia and E. filifera from raisins in Argentina, and both of them also were found in hypersaline water of a saltern in Slovenia. E. olivicola was isolated from olives in Italy and E. discophora from soil in Spain. All listed species possess distinct extrolite profiles: E. stella-maris produced arugosin E, shamixanthone and the yet unelucidated metabolites glia 1-3; E. filifera produced shamixanthone and varitriols; E. discophora produced sterigmatocystin and versicolorins; E. olivicola produced numerous extrolites such as arugosin E, siderin, shamixanthone, sterigmatocystin, terrein, varitriols and aflatoxin B1, of which the latter was detected only in one of the two strains.
  Mycologia 100(5):779-95. · 2.03 Impact Factor
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  Available from: Nina Gunde-cimerman

  Article: Melanized halophilic fungi are eukaryotic members of microbial communities in hypersaline waters of solar salterns

  Lorena Butinar, Silva Sonjak, Polona Zalar, Ana Plemenitaš, Nina Gunde-Cimerman
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  ABSTRACT: Until recently, it was believed that microbial communities at high salinities are dominated exclusively by Archaea and Bacteria and one eukaryotic species, the alga Duna-liella salina. Recently, it became evident that melanized fungi, so far described only in the crystallization pond of Adriatic salterns within the season of salt production, can be considered as a new group of eukaryotic halophiles. They were represented by black, yeast-like hypho-mycetes: Hortaea werneckii, Phaeotheca triangularis, Trimmatostroma salinum, Aureobasidium pullulans, together with phylogenetically closely related Cladospo-rium species. In the present study, the distribution of the melanized fungal population in five different evaporating ponds in the Adriatic salterns wcovering the entire salinity range (3–30% NaCl)x was followed throughout the year. It appeared in three peaks, at 5–8%, 10–20% and 18–25% NaCl, which correlated primarily with high nitro-gen values. At the highest environmental salinities, mela-nized fungi represented 85–100% of the total isolated mycobiota, but with lowering salinities they were partially replaced by non-melanized fungi and, at the end of the season, with NaCl concentrations below 5%, they were detected only occasionally. Melanized fungi have been isolated from hypersaline waters on three continents, indicating that they are present globally in hypersaline waters of man-made salterns.