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Autores principales: Belaeff, Chiara, De Luca, Ylenia, Di Iorio, Luciano, De Stefano, Marina, Baccigalupi, Loredana, Giovannelli, Donato, Ricca, Ezio, Saggese, Anella
Formato: Artículo científico
Lenguaje:en
Publicado: MicrobiologyOpen 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/41268889/
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author Belaeff, Chiara
De Luca, Ylenia
Di Iorio, Luciano
De Stefano, Marina
Baccigalupi, Loredana
Giovannelli, Donato
Ricca, Ezio
Saggese, Anella
author_facet Belaeff, Chiara
De Luca, Ylenia
Di Iorio, Luciano
De Stefano, Marina
Baccigalupi, Loredana
Giovannelli, Donato
Ricca, Ezio
Saggese, Anella
Belaeff, Chiara
De Luca, Ylenia
Di Iorio, Luciano
De Stefano, Marina
Baccigalupi, Loredana
Giovannelli, Donato
Ricca, Ezio
Saggese, Anella
collection PubMed - marine biology
contents Bioremediation and Recovery of Lead and Cadmium by Spores of Bacillus subtilis C1. Belaeff, Chiara De Luca, Ylenia Di Iorio, Luciano De Stefano, Marina Baccigalupi, Loredana Giovannelli, Donato Ricca, Ezio Saggese, Anella Bacillus subtilis Spores, Bacterial Lead Cadmium Biodegradation, Environmental Arabidopsis Adsorption Spores of a hot spring isolated strain of Bacillus subtilis were tested as a biotechnological tool to be used for the detoxification and bioremedition of heavy metals. Lead and cadmium were efficiently adsorbed by B. subtilis spores with those of C1 more efficient than those of the lab collection strain PY79. Metal-adsorption did not alter the functionality of C1 spores that were still fully resistant to heat, ethanol or chloroform and able to germinate after the interaction with Cd or Pb. The spore-adsorbed metals were released upon disruption of the spore coat layers, suggesting that the metals were mostly accumulated within the spore coat. Heat-inactivated spores released almost all adsorbed metals, allowing the recovery of Cd and Pb. While Cd polluted water impaired the normal germination and growth of seeds of the model plant Arabidopsis thaliana, treatment of the polluted water with C1 spores restored plant growth.
format Artículo científico
id pubmed_41268889
institution PubMed
language en
publishDate 2025
publisher MicrobiologyOpen
record_format pubmed
spellingShingle Bioremediation and Recovery of Lead and Cadmium by Spores of Bacillus subtilis C1.
Belaeff, Chiara
De Luca, Ylenia
Di Iorio, Luciano
De Stefano, Marina
Baccigalupi, Loredana
Giovannelli, Donato
Ricca, Ezio
Saggese, Anella
Bacillus subtilis
Spores, Bacterial
Lead
Cadmium
Biodegradation, Environmental
Arabidopsis
Adsorption
Bioremediation and Recovery of Lead and Cadmium by Spores of Bacillus subtilis C1. Belaeff, Chiara De Luca, Ylenia Di Iorio, Luciano De Stefano, Marina Baccigalupi, Loredana Giovannelli, Donato Ricca, Ezio Saggese, Anella Bacillus subtilis Spores, Bacterial Lead Cadmium Biodegradation, Environmental Arabidopsis Adsorption Spores of a hot spring isolated strain of Bacillus subtilis were tested as a biotechnological tool to be used for the detoxification and bioremedition of heavy metals. Lead and cadmium were efficiently adsorbed by B. subtilis spores with those of C1 more efficient than those of the lab collection strain PY79. Metal-adsorption did not alter the functionality of C1 spores that were still fully resistant to heat, ethanol or chloroform and able to germinate after the interaction with Cd or Pb. The spore-adsorbed metals were released upon disruption of the spore coat layers, suggesting that the metals were mostly accumulated within the spore coat. Heat-inactivated spores released almost all adsorbed metals, allowing the recovery of Cd and Pb. While Cd polluted water impaired the normal germination and growth of seeds of the model plant Arabidopsis thaliana, treatment of the polluted water with C1 spores restored plant growth.
title Bioremediation and Recovery of Lead and Cadmium by Spores of Bacillus subtilis C1.
topic Bacillus subtilis
Spores, Bacterial
Lead
Cadmium
Biodegradation, Environmental
Arabidopsis
Adsorption
url https://pubmed.ncbi.nlm.nih.gov/41268889/