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This study deals with establishing the characteristics of a microbial community isolated from indoor artworks and the surrounding air environment. It is one of the few studies on microbial degradation of indoor artworks. It shows the potential biodegradative risk that can occur if artworks are not exhibited and conserved in an appropriate environment. The microbial community isolated from the indoor artworks and air environment was examined by cultural and molecular methods. Different plate assays were used to screen the biodegradative activity of the isolated microflora: Remazol Brilliant Blue R, phenol red, and Azure B for the ligninolytic properties; Ostazin brilliant red H-3B for cellulose degradation; CaCO3 glucose agar for solubilization activity; and B4 agar for biomineralization. To type the bacterial and fungal isolates, 2 PCR methods, repetitive extragenic palindromes (REP) and random amplified microsatellite polymorphisms (RAMP) were used. The art objects were principally colonized by fungi. The most commonly isolated strains were represented by hyphomycetes of the genera Penicillium, Aspergillus, Cladosporium, and Chaetomium. Members of these genera showed intensive biodegradation activity, both on wood and on stone. Bacteria were predominant in the air, exhibiting complex communities, both in the air and on the artworks. The most frequently isolated genera were Bacillus and Staphylococcus with extensive biodegradation abilities. REP-PCR revealed high variability within strains belonging to the same genus. RAMP is a new PCR-based method, used in this research for the first time to cluster the microfilamentous fungi and to characterize and select especially Penicillium and Aspergillus strains, which were isolated in a large number.

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Wooden art objects and the museum environment: identification and biodegradative characteristics of isolated microflora

Pangallo

Šimonovičová²,

Chovanová

et al. 2007

Lett Appl Microbiol

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Aims: The identification of culturable microbial communities on wooden art objects and from indoor air, and the analysis of their biodegradative properties. Methods and Results: Common and newly‐developed agar media were used for the isolation of fungal and bacterial microflora. The identification was carried out by traditional methods and by the sequencing of 16S or 18S rDNA PCR products. Different plate assays were employed to screen the lignolytic and cellulolytic activities of the isolated microflora. Interesting bacteria were isolated from art objects even though the fungi were the principal contaminants of art works. Various fungal and bacterial species exhibited their lignolytic and cellulolytic activity by the decolorization of Remazol Brilliant Blue R, Phenol Red, Azure B and Ostazin Brilliant Red H‐3B. Conclusions: The microbial communities on wooden art objects exposed in an indoor environment were identified. The study showed the biodegradative power of many microorganisms, and new data were added to this field barely investigated. Significance and Impact of the Study: By the development of new culture media and the evaluation of different biodegradative plate assays, a strategy for the analysis of microflora in wooden art objects was established. Several aspects of the study could be also exploited for biotechnology applications.

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Biodeterioration of epoxy resin: a microbial survey through culture‐independent and culture‐dependent approaches

Pangallo

Bučková

Kraková

et al. 2014

Environmental Microbiology

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During the 20th century, synthetic polymers were greatly used in the field of art. In particular, the epoxy resins were used for both conservation and for creating sculptures. The biodeterioration of these polymers has not been adequately studied. The aim of this investigation was to examine the microflora responsible for the deterioration of an epoxy statue exposed to outdoor conditions. Fungal and bacterial microflora were isolated from the art object, clustered by fluorescence-ITS (internal transcribed spacer), identified by ITS and 16S rRNA sequencing and tested for their lipolytic abilities by three agar assays. Different algal, bacterial, cyanobacterial and fungal clone libraries were constructed. The surrounding airborne microflora was analyzed using culture-dependent and culture-independent approaches. The results indicated the presence, on the statue surface, of an interesting and differentiate microbial community composed of rock-inhabiting members, algal photobionts (Trebouxia spp., Chloroidium ellipsoideum and Chlorella angustoellipsoidea), Cyanobacteria (Leptolyngbya sp., Phormidium sp., Cylindrospermum stagnale, Hassallia byssoidea and Geitlerinema sp.), black yeasts related to the species Friedmanniomyces endolithicus, Pseudotaeniolina globosa, Phaeococcomyces catenatus and Catenulostroma germanicum and several plant-associated fungi. This investigation provides new information on the potential microfloral inhabitants of epoxy resin discovering a new ecological niche, occupied mainly by several members of rock-colonizing microbial species.

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Disclosing a crypt: Microbial diversity and degradation activity of the microflora isolated from funeral clothes of Cardinal Peter Pázmány

Pangallo

Kraková

Chovanová

et al. 2013

Microbiological Research

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A crypt can be considered as a particular environment where different microbial communities contribute to decomposition of organic materials present inside during a long interval of time. The textile remains of the funeral clothes (biretta and tunic) of Cardinal Pázmány, an important historic figure dead in Bratislava the 19th March 1637, conserved in this kind of environment were subjected to microbial investigation. The sampling comprised three different approaches and the use of various kinds of cultivation media. Two different PCR-based clustering methods, f-ITS and f-CBH, were employed in order to select the bacterial and fungal microfloras which were identified in a second step by the 16S rRNA and ITS sequencing respectively. The isolated microflora was tested for its proteolytic, keratinolytic and cellulolytic activities and for its ability to grow on Fibroin agar medium. The combination of cultural, molecular and biodegradative assays was able to isolate and characterize a bacterial community composed mainly by members of the phyla Firmicutes and Actinobacteria. The fungal community appeared more diversified, together with several Penicillium and Aspergillus strains, members belonging to the species Beauveria bassiana, Eurotium cristatum, Xenochalara juniperi, Phialosimplex caninus and Myriodontium keratinophilum were isolated. Bacteria, especially the Bacillus members, showed their strong ability to degrade keratin and gelatin and a large portion of them was able to growth on Fibroin agar. The fungal isolates displayed a widespread cellulolytic activity and fibroin utilization, although they possessed a weaker and slower proteolytic and keratinolytic properties respect to bacterial counterpart. The present study can be considered perhaps as the first or among the few microbial investigations which treated the textile biodegradation from such unusual environment.

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Analysis and comparison of the microflora isolated from fresco surface and from surrounding air environment through molecular and biodegradative assays

Pangallo

Kraková

Chovanová

et al. 2012

World J Microbiol Biotechnol

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Identification of animal skin of historical parchments by polymerase chain reaction (PCR)-based methods

Pangallo

Chovanová

Maková

2010

Journal of Archaeological Science

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Genome sequence of the filamentous soil fungus Chaetomium cochliodes reveals abundance of genes for heme enzymes from all peroxidase and catalase superfamilies

et al. 2016

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BackgroundThe ascomycetous family Chaetomiaceae (class Sordariomycetes) includes numerous soilborn, saprophytic, endophytic and pathogenic fungi which can adapt to various growth conditions and living niches by providing a broad armory of oxidative and antioxidant enzymes.ResultsWe release the 34.7 Mbp draft genome of Chaetomium cochliodes CCM F-232 consisting of 6036 contigs with an average size of 5756 bp and reconstructed its phylogeny. We show that this filamentous fungus is closely related but not identical to Chaetomium globosum and Chaetomium elatum. We screened and critically analysed this genome for open reading frames coding for essential antioxidant enzymes. It is demonstrated that the genome of C. cochliodes contains genes encoding putative enzymes from all four known heme peroxidase superfamilies including bifunctional catalase-peroxidase (KatG), cytochrome c peroxidase (CcP), manganese peroxidase, two paralogs of hybrid B peroxidases (HyBpox), cyclooxygenase, linoleate diol synthase, dye-decolorizing peroxidase (DyP) of type B and three paralogs of heme thiolate peroxidases. Both KatG and DyP-type B are shown to be introduced into ascomycetes genomes by horizontal gene transfer from various bacteria. In addition, two putative large subunit secretory and two small-subunit typical catalases are found in C. cochliodes. We support our genomic findings with quantitative transcription analysis of nine peroxidase & catalase genes.ConclusionsWe delineate molecular phylogeny of five distinct gene superfamilies coding for essential heme oxidoreductases in Chaetomia and from the transcription analysis the role of this antioxidant enzymatic armory for the survival of a peculiar soil ascomycete in various harsh environments.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-016-3111-6) contains supplementary material, which is available to authorized users.

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Katarína Chovanová

A multiphasic approach for investigation of the microbial diversity and its biodegradative abilities in historical paper and parchment documents

Investigation of microbial community isolated from indoor artworks and air environment: identification, biodegradative abilities, and DNA typing

Wooden art objects and the museum environment: identification and biodegradative characteristics of isolated microflora

Biodeterioration of epoxy resin: a microbial survey through culture‐independent and culture‐dependent approaches

Disclosing a crypt: Microbial diversity and degradation activity of the microflora isolated from funeral clothes of Cardinal Peter Pázmány

Analysis and comparison of the microflora isolated from fresco surface and from surrounding air environment through molecular and biodegradative assays

Identification of animal skin of historical parchments by polymerase chain reaction (PCR)-based methods

Genome sequence of the filamentous soil fungus Chaetomium cochliodes reveals abundance of genes for heme enzymes from all peroxidase and catalase superfamilies

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