Fungi from Antarctic marine sediment: characterization and assessment for textile dye decolorization and detoxification

Cold-adapted microorganisms can produce enzymes with activity at low and mild temperatures, which can be applied to environmental biotechnology. This study aimed to characterize 20 Antarctic fungi to identify their genus (ITS rDNA marker) and growth temperatures and evaluate their ability to decolor...

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Veröffentlicht in:	Brazilian journal of microbiology 2024-12, Vol.55 (4), p.3437-3448
Hauptverfasser:	Yoshinaga, Thaís Tiemi, Giovanella, Patrícia, de Farias, Gabriele Santana, dos Santos, Juliana Aparecida, Pellizzer, Elisa Pais, Sette, Lara Durães
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Sprache:	eng
Schlagworte:	Antarctic Regions Biodegradation, Environmental Biomedical and Life Sciences Coloring Agents - metabolism Environmental and Biodiversity - Research Paper Food Microbiology Fungi - classification Fungi - genetics Fungi - isolation & purification Fungi - metabolism Geologic Sediments - microbiology Indigo Carmine - metabolism Life Sciences Medical Microbiology Microbial Ecology Microbial Genetics and Genomics Microbiology Mycology Phylogeny Textiles - microbiology
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container_title	Brazilian journal of microbiology
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creator	Yoshinaga, Thaís Tiemi Giovanella, Patrícia de Farias, Gabriele Santana dos Santos, Juliana Aparecida Pellizzer, Elisa Pais Sette, Lara Durães
description	Cold-adapted microorganisms can produce enzymes with activity at low and mild temperatures, which can be applied to environmental biotechnology. This study aimed to characterize 20 Antarctic fungi to identify their genus (ITS rDNA marker) and growth temperatures and evaluate their ability to decolorize and detoxify the textile dye indigo carmine (IC). An individual screening was performed to assess the decolorization and detoxification of IC by the isolates, as well as in consortia with other fungi. The isolates were affiliated with seven ascomycete genera: Aspergillus ( n = 4), Cosmospora ( n = 2), Leuconeurospora ( n = 2), Penicillium ( n = 3), Pseudogymnoascus ( n = 6), Thelebolus ( n = 2), and Trichoderma ( n = 1). The two isolates from the genus Leuconeurospora were characterized as psychrophilic, while the others were psychrotolerant. The Penicillium isolates were able to decolorize between 60 and 82% of IC. The isolates identified as Pseudogymnoascus showed the best detoxification capacity, with results varying from 49 to 74%. The consortium using only Antarctic ascomycetes (C1) showed 45% of decolorization, while the consortia with the addition of basidiomycetes (C1 + Peniophora and C1 + Pholiota ) showed 40% and 50%, respectively. The consortia C1 with the addition of the basidiomycetes presented a lower toxicity after the treatments. In addition, a higher fungal biomass was produced in the presence of dye when compared with the experiment without the dye, which can be indicative of dye metabolization. The results highlight the potential of marine-derived Antarctic fungi in the process of textile dye degradation. The findings encourage further studies to elucidate the degradation and detoxification pathways of the dye IC by these fungal isolates.
doi_str_mv	10.1007/s42770-024-01485-w
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This study aimed to characterize 20 Antarctic fungi to identify their genus (ITS rDNA marker) and growth temperatures and evaluate their ability to decolorize and detoxify the textile dye indigo carmine (IC). An individual screening was performed to assess the decolorization and detoxification of IC by the isolates, as well as in consortia with other fungi. The isolates were affiliated with seven ascomycete genera: Aspergillus ( n = 4), Cosmospora ( n = 2), Leuconeurospora ( n = 2), Penicillium ( n = 3), Pseudogymnoascus ( n = 6), Thelebolus ( n = 2), and Trichoderma ( n = 1). The two isolates from the genus Leuconeurospora were characterized as psychrophilic, while the others were psychrotolerant. The Penicillium isolates were able to decolorize between 60 and 82% of IC. The isolates identified as Pseudogymnoascus showed the best detoxification capacity, with results varying from 49 to 74%. The consortium using only Antarctic ascomycetes (C1) showed 45% of decolorization, while the consortia with the addition of basidiomycetes (C1 + Peniophora and C1 + Pholiota ) showed 40% and 50%, respectively. The consortia C1 with the addition of the basidiomycetes presented a lower toxicity after the treatments. In addition, a higher fungal biomass was produced in the presence of dye when compared with the experiment without the dye, which can be indicative of dye metabolization. The results highlight the potential of marine-derived Antarctic fungi in the process of textile dye degradation. 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The consortium using only Antarctic ascomycetes (C1) showed 45% of decolorization, while the consortia with the addition of basidiomycetes (C1 + Peniophora and C1 + Pholiota ) showed 40% and 50%, respectively. The consortia C1 with the addition of the basidiomycetes presented a lower toxicity after the treatments. In addition, a higher fungal biomass was produced in the presence of dye when compared with the experiment without the dye, which can be indicative of dye metabolization. The results highlight the potential of marine-derived Antarctic fungi in the process of textile dye degradation. 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This study aimed to characterize 20 Antarctic fungi to identify their genus (ITS rDNA marker) and growth temperatures and evaluate their ability to decolorize and detoxify the textile dye indigo carmine (IC). An individual screening was performed to assess the decolorization and detoxification of IC by the isolates, as well as in consortia with other fungi. The isolates were affiliated with seven ascomycete genera: Aspergillus ( n = 4), Cosmospora ( n = 2), Leuconeurospora ( n = 2), Penicillium ( n = 3), Pseudogymnoascus ( n = 6), Thelebolus ( n = 2), and Trichoderma ( n = 1). The two isolates from the genus Leuconeurospora were characterized as psychrophilic, while the others were psychrotolerant. The Penicillium isolates were able to decolorize between 60 and 82% of IC. The isolates identified as Pseudogymnoascus showed the best detoxification capacity, with results varying from 49 to 74%. The consortium using only Antarctic ascomycetes (C1) showed 45% of decolorization, while the consortia with the addition of basidiomycetes (C1 + Peniophora and C1 + Pholiota ) showed 40% and 50%, respectively. The consortia C1 with the addition of the basidiomycetes presented a lower toxicity after the treatments. In addition, a higher fungal biomass was produced in the presence of dye when compared with the experiment without the dye, which can be indicative of dye metabolization. The results highlight the potential of marine-derived Antarctic fungi in the process of textile dye degradation. 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subjects	Antarctic Regions Biodegradation, Environmental Biomedical and Life Sciences Coloring Agents - metabolism Environmental and Biodiversity - Research Paper Food Microbiology Fungi - classification Fungi - genetics Fungi - isolation & purification Fungi - metabolism Geologic Sediments - microbiology Indigo Carmine - metabolism Life Sciences Medical Microbiology Microbial Ecology Microbial Genetics and Genomics Microbiology Mycology Phylogeny Textiles - microbiology
title	Fungi from Antarctic marine sediment: characterization and assessment for textile dye decolorization and detoxification
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