Your search keyword '"Aranda, Elisabet"' showing total 23 results

1. Anthracene-Induced Alterations in Liverwort Architecture In Vitro: Potential for Bioindication of Environmental Pollution.

Author

Svriz, Maya, Torres, Cristian D., Mongiat, Lucas, Aranda, Elisabet, Spinedi, Nahuel, Fracchia, Sebastian, and Scervino, José Martín

Subjects

POLYCYCLIC aromatic hydrocarbons, SYMMETRY (Biology), ANTHRACENE, ADULT development, PLANT development

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are widespread globally, primarily due to long-term anthropogenic pollution sources. Since PAHs tend to accumulate in soil sediments, liverwort plants, such as Lunularia cruciata, are susceptible to their adverse effects, making them good models for bioindicators. The aim of this study was to probe the impact of anthracene, a three-ring linear PAH, on the growth parameters of L. cruciata and the relationship established with the internalization of the pollutant throughout the phenology of the plant. Intrinsic plant responses, isolated from external factors, were assessed in vitro. L. cruciata absorbed anthracene from the culture medium, and its bioaccumulation was monitored throughout the entire process, from the gemma germination stage to the development of the adult plant, over a total period of 60 days. Consequently, plants exposed to concentrations higher than 50 μM anthracene, decreased the growth area of the thallus, the biomass and number of tips. Moreover, anthracene also impinged on plant symmetry. This concentration represented the maximum limit of bioaccumulation in the tissues. This study provides the first evidence that architectural variables in liverwort plants are suitable parameters for their use as bioindicators of PAHs. [ABSTRACT FROM AUTHOR]

Published

2024

2. First Report of in Vitro Biological Agent to Biocontrol of Date Palm Stipe Rot Affected by Fusarium brachygibbosum by Using Pergularia tomentosa L., Aqueous Extract.

Author

Baba, Mohamed Lemine, Essghaier, Badiaa, Robledo-Mahón, Tatiana, Abidine, Mohamed Mahmoud, Aranda, Elisabet, Sánchez, José, Elemine, Brahim Ould, Gallego, Eduardo, Sebai, Khaled, and Vadel, Ahmedou

Subjects

DATE palm, BIOLOGICAL pest control agents, FUSARIUM, LEAF spots, EXTRACTS

Abstract

Palm (Phoenix dactylifera L.) is a specie cultivated in Mauritania. The present study is focused on the potential of the aqueous extract of the Pergularia tomentosa L., as biological control agent against Fusarium brachygibbosum, the main agent of the date palm stipe rot disease in Mauritania. Fungal pathogen was isolated from symptomatic date palm stipe rot disease in Mauritania. The morphological characterization and the molecular identification by sequencing ITS1, ITS2 5.8 RNAr region showed homology of 98% with Fusarium brachygibbosum strain UOA/HCPF 16982 s during in vitro tests on leaves performed to verify its phytopathogenicity. The inhibitory effect of aqueous extract of Pergularia tomentosa L. on the phytopathogenic isolate (Fusarium brachygibbosum) of date palm, on mycelial growth and spore germination was observed. In fact, in vitro on PDA, mycelial growth ranged from 39.23 to 67.7%, depending on the concentration of the aqueous extract of P. tomentosa. The aqueous extract showed a reduction of spore germination varying from 5.3 to 23.8%. The minimum inhibitory concentrations varied from 1 to 100 mg/ml. The various extracts give high antioxidant activities exhibited by DPPH assay. Multivariant analysis by PCA plot and the heatmap were done, to evaluate the correlation between the tested parameters. These results suggest the use of Pergularia tomentosa L., extract as a biological agent to control and reduce damage caused by Fusarium brachygibbosum. [ABSTRACT FROM AUTHOR]

Published

2023

3. Simultaneous Heavy Metal-Polycyclic Aromatic Hydrocarbon Removal by Native Tunisian Fungal Species.

Author

Hkiri, Neila, Olicón-Hernández, Dario R., Pozo, Clementina, Chouchani, Chedly, Asses, Nedra, and Aranda, Elisabet

Subjects

AROMATIC compounds, PHENANTHRENE, TRANSMISSION electron microscopy, ANTHRACENE, COPPER, POLLUTANTS, SPECIES

Abstract

Multi-contamination by organic pollutants and toxicmetals is common in anthropogenic and industrial environments. In this study, the five fungal strains Chaetomium jodhpurense (MH667651.1), Chaetomium maderasense (MH665977.1), Paraconiothyrium variabile (MH667653.1), Emmia lacerata, and Phoma betae (MH667655.1), previously isolated in Tunisia, were investigated for the simultaneous removal and detoxification of phenanthrene (PHE) and benzo[a]anthracene (BAA), as well as heavy metals (HMs) (Cu, Zn, Pb and Ag) in Kirk's media. The removal was analysed using HPLC, ultra-high performance liquid chromatography (UHPLC) coupled to a QToF mass spectrometer, transmission electron microscopy, and toxicology was assessed using phytotoxicity (Lepidium sativum seeds) and Microtox® (Allivibrio fisherii) assays. The PHE and BAA degradation rates, in free HMs cultures, reached 78.8% and 70.7%, respectively. However, the addition of HMs considerably affected the BAA degradation rate. The highest degradation rates were associated with the significant production of manganese-peroxidase, lignin peroxidase, and unspecific peroxygenase. The Zn and Cu removal efficacy was considerably higher with live cells than dead cells. Transmission electron microscopy confirmed the involvement of both bioaccumulation and biosorption processes in fungal HM removal. The environmental toxicological assays proved that simultaneous PAH and HM removal was accompanied by detoxification. The metabolites produced during co-treatment were not toxic for plant tissues, and the acute toxicity was reduced. The obtained results indicate that the tested fungi can be applied in the remediation of sites simultaneously contaminated with PAHs and HMs. [ABSTRACT FROM AUTHOR]

Published

2023

4. Assessment of the antioxidative response and culturable micro-organisms of Lygeum spartum Loefl. ex L. for prospective phytoremediation applications.

Author

Terwayet Bayouli, Ines, Robledo-Mahón, Tatiana, Meers, Erik, Calvo, Concepción, and Aranda, Elisabet

Subjects

PHYTOPATHOGENIC bacteria, PHYTOREMEDIATION, CEMENT plants, VESICULAR-arbuscular mycorrhizas, MICROORGANISMS, INDUSTRIAL pollution

Abstract

Abundant plant species in arid industrial areas are mining phyto-resources for sustainable phyto-management. However, the association with their rhizosphere is still poorly known for phytoremediation purposes. This study aims to assess the heavy metals (HMs) and metalloids uptake of Lygeum spartum Loefl. ex L. growing in cement plant vicinity and screen associated culturome for potential phytoremediation use. Bioaccumulation factor (BAF), the translocation factor (TF), and the mobility ratio (MR) were studied along with four sites. Lipid peroxidation (MDA), free proline (Pro), Non-protein thiols (NPTs), and reduced glutathione (GSH) were tested for evaluating the plant antioxidative response. Bacteria and fungi associated with L. spartum Loefl. ex L. were identified by 16S rRNA and fungal internal transcribed spacer (ITS1-ITS2) gene sequencing. Our results showed an efficient uptake of As, Pb, and Zn and enhanced GSH (0.34 ± 0.03) and NPTs (528.7 ± 14.4 nmol g−1 FW) concentrations in the highly polluted site. No significant variation of Arbuscular Mycorrhizal Fungi (AMF) was found. Among 29 bacterial isolates, potential bioremediation were Bacillus simplex and Bacillus atrophaeus. Thus, L. spartum Loefl. ex L. and its associated microbiota have the potential for phytoremediation applications. Novelty statement: This work has been set in line with the investigation of the integrative biology of Lygeum spartum Loefl ex L. and the screening of its associated microbiome for potential phytoremediation applications. This work is the first work conducted in a cement plant vicinity investigating the associated fungi and bacteria of L. spartum Loefl. ex L. and been part of a sectorial research project since 2011, for assessing the impact of industrial pollution and recognizing the accumulation potential of plant species for further phyto-management applications. [ABSTRACT FROM AUTHOR]

Published

2023

5. Biodiversidad microbiana y su papel en la salud del suelo en la región del mediterráneo.

Author

Mar López Rodríguez, María del, Purswani, Jessica, Pozo, Clementina, Calvo, Concepción, Robledo Mahón, Tatiana, and Aranda, Elisabet

Published

2024

6. High-Throughput Microbial Community Analyses to Establish a Natural Fungal and Bacterial Consortium from Sewage Sludge Enriched with Three Pharmaceutical Compounds.

Author

Ledezma-Villanueva, Alejandro, Robledo-Mahón, Tatiana, Gómez-Silván, Cinta, Angeles-De Paz, Gabriela, Pozo, Clementina, Manzanera, Maximino, Calvo, Concepción, and Aranda, Elisabet

Subjects

MICROBIAL communities, ALTERNARIA alternata, BACTERIAL communities, FUNGAL communities, ANTI-infective agents, SEWAGE sludge, IN situ bioremediation

Abstract

Emerging and unregulated contaminants end up in soils via stabilized/composted sewage sludges, paired with possible risks associated with the development of microbial resistance to antimicrobial agents or an imbalance in the microbial communities. An enrichment experiment was performed, fortifying the sewage sludge with carbamazepine, ketoprofen and diclofenac as model compounds, with the aim to obtain strains with the capability to transform these pollutants. Culturable microorganisms were obtained at the end of the experiment. Among fungi, Cladosporium cladosporioides, Alternaria alternata and Penicillium raistrickii showed remarkable degradation rates. Population shifts in bacterial and fungal communities were also studied during the selective pressure using Illumina MiSeq. These analyses showed a predominance of Ascomycota (Dothideomycetes and Aspergillaceae) and Actinobacteria and Proteobacteria, suggesting the possibility of selecting native microorganisms to carry out bioremediation processes using tailored techniques. [ABSTRACT FROM AUTHOR]

Published

2022

7. Pharmaceutical Pollution in Aquatic Environments: A Concise Review of Environmental Impacts and Bioremediation Systems.

Author

Ortúzar, Maite, Esterhuizen, Maranda, Olicón-Hernández, Darío Rafael, González-López, Jesús, and Aranda, Elisabet

Subjects

WATER pollution, BIOREMEDIATION, SEWAGE disposal plants, ENVIRONMENTAL remediation, WASTEWATER treatment, IN situ bioremediation

Abstract

The presence of emerging contaminants in the environment, such as pharmaceuticals, is a growing global concern. The excessive use of medication globally, together with the recalcitrance of pharmaceuticals in traditional wastewater treatment systems, has caused these compounds to present a severe environmental problem. In recent years, the increase in their availability, access and use of drugs has caused concentrations in water bodies to rise substantially. Considered as emerging contaminants, pharmaceuticals represent a challenge in the field of environmental remediation; therefore, alternative add-on systems for traditional wastewater treatment plants are continuously being developed to mitigate their impact and reduce their effects on the environment and human health. In this review, we describe the current status and impact of pharmaceutical compounds as emerging contaminants, focusing on their presence in water bodies, and analyzing the development of bioremediation systems, especially mycoremediation, for the removal of these pharmaceutical compounds with a special focus on fungal technologies. [ABSTRACT FROM AUTHOR]

Published

2022

8. Oxidative effects on Ri T-DNA-transformed root of Daucus carota exposed to anthracene.

Author

Storb, Romina, Aranda, Elisabet, Fracchia, Sebastian, Spinedi, Nahuel, and Scervino, José Martin

Published

2022

9. RESPUESTA FISIOLÓGICA DE LUNULARIA CRUCIATA (PHYLUM MARCHANTIOPHYTA) A LA PRESENCIA DEL HIDROCARBURO AROMÁTICO POLICÍCLICO ANTRACENO.

Author

Storb, Romina, Spinedi, Nahuel, Aranda, Elisabet, Fracchia, Sebastián, and Martin Scervino, José

Subjects

POLYCYCLIC aromatic hydrocarbons, ANTHRACENE, PLANT growth, ORGANIC compounds, CHLOROPHYLL, GERMINATION

Abstract

Copyright of Boletín de la Sociedad Argentina de Botánica is the property of Sociedad Argentina de Botanica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

10. Transcriptomic analysis of polyaromatic hydrocarbon degradation by the halophilic fungus Aspergillus sydowii at hypersaline conditions.

Author

Peidro‐Guzmán, Heidy, Pérez‐Llano, Yordanis, González‐Abradelo, Deborah, Fernández‐López, Maikel Gilberto, Dávila‐Ramos, Sonia, Aranda, Elisabet, Hernández, Darío Rafael Olicón, García, Angélica Ortega, Lira‐Ruan, Verónica, Pliego, Oscar Ramírez, Santana, María Angélica, Schnabel, Denhi, Jiménez‐Gómez, Irina, Mouriño‐Pérez, Rosa R., Aréchiga‐Carvajal, Elva T., del Rayo Sánchez‐Carbente, María, Folch‐Mallol, Jorge Luis, Sánchez‐Reyes, Ayixon, Vaidyanathan, Vinoth Kumar, and Cabana, Hubert

Subjects

XENOBIOTICS, PHENANTHRENE, HYDROCARBON analysis, POLYCYCLIC aromatic hydrocarbons, ASPERGILLUS, FUNGAL enzymes, BIOCONVERSION, FUNGAL remediation

Abstract

Summary: Polycyclic aromatic hydrocarbons (PAHs) are among the most persistent xenobiotic compounds, with high toxicity effects. Mycoremediation with halophilic Aspergillus sydowii was used for their removal from a hypersaline medium (1 M NaCl). A. sydowii metabolized PAHs as sole carbon sources, resulting in the removal of up to 90% for both PAHs [benzo [a] pyrene (BaP) and phenanthrene (Phe)] after 10 days. Elimination of Phe and BaP was almost exclusively due to biotransformation and not adsorption by dead mycelium and did not correlate with the activity of lignin modifying enzymes (LME). Transcriptomes of A. sydowii grown on PAHs, or on glucose as control, both at hypersaline conditions, revealed 170 upregulated and 76 downregulated genes. Upregulated genes were related to starvation, cell wall remodelling, degradation and metabolism of xenobiotics, DNA/RNA metabolism, energy generation, signalling and general stress responses. Changes of LME expression levels were not detected, while the chloroperoxidase gene, possibly related to detoxification processes in fungi, was strongly upregulated. We propose that two parallel metabolic pathways (mitochondrial and cytosolic) are involved in degradation and detoxification of PAHs in A. sydowii resulting in intracellular oxidation of PAHs. To the best of our knowledge, this is the most comprehensive transcriptomic analysis on fungal degradation of PAHs. [ABSTRACT FROM AUTHOR]

Published

2021

11. Enzymatic Potential of Bacteria and Fungi Isolates from the Sewage Sludge Composting Process.

Author

Robledo-Mahón, Tatiana, Calvo, Concepción, and Aranda, Elisabet

Subjects

SLUDGE composting, SEWAGE sludge, BACILLUS pumilus, FUNGI, SLUDGE management, FUNGAL cultures, COMPOSTING, THERMOPHILIC bacteria

Abstract

Featured Application: Screening of suitable microorganisms adapted to environmental conditions are the challenges for the optimization of biotechnological processes in the current and near future. Some of the isolated microorganisms in this study possess biotechnological desirable features which could be employed in different processes, such as biorefinery, bioremediation, or in the food industry. The aim of this study was the isolation and characterisation of the fungi and bacteria during the composting process of sewage sludge under a semipermeable membrane system at full scale, in order to find isolates with enzymatic activities of biotechnological interest. A total of 40 fungi were isolated and enzymatically analysed. Fungal culture showed a predominance of members of Ascomycota and Basidiomycota division and some representatives of Mucoromycotina subdivision. Some noticeable fungi isolated during the mesophilic and thermophilic phase were Aspergillus, Circinella, and Talaromyces. During the maturation phase, some lignin modifying enzyme producers, like Purpureocillium, Thielavia, Bjerkandera, or Dichotomyces, were found. Within this group, Thielavia and Bjerkandera showed high activity with production of laccases and peroxidases. In the bacterial culturome, a total of 128 strains were selected and enzymatically analysed. Bacillales, Actinomycetales, Pseudomonadales, and Lactobacillales were the orders most represented in culture-bacteria. Bacillus pumilus, B. stratosphericus, B. safensis, and Pseudomonas formosensis were the species most efficient in enzyme production, particularly peroxidases, polyphenol oxidases ammonifying activity, and amylases. These results showed that sewage sludge composting piles could represent a source of microorganisms which have adapted to adverse conditions. [ABSTRACT FROM AUTHOR]

Published

2020

12. Metabolic Capability of Penicillium oxalicum to Transform High Concentrations of Anti-Inflammatory and Analgesic Drugs.

Author

Olicón-Hernández, Darío Rafael, Ortúzar, Maite, Pozo, Clementina, González-López, Jesús, and Aranda, Elisabet

Subjects

ANTI-inflammatory agents, NONSTEROIDAL anti-inflammatory agents, DICLOFENAC, PENICILLIUM, WATER pollution, CYTOCHROME P-450, ANALGESICS

Abstract

Non-steroidal anti-inflammatory drugs (NSAIDs) and analgesics are two of the most employed drug groups around the world due to their use in the treatment of edema and pain. However, they also present an ecological challenge because they are considered as potential water pollutants. In this work, the biodegradation of four NSAIDs (diclofenac, ibuprofen, naproxen and ketoprofen) and one analgesic (acetaminophen) at 50 µM (initial concentration) by Penicillium oxalicum, at both flask and bioreactor bench scales, was evaluated. An important co-metabolic mechanism as part of the global bioremediation process for the elimination of these drugs was observed, as in some cases it was necessary to supplement glucose to achieve a 100% removal rate: both individually and as a complex mixture. Identical behavior in the implementation of a fluidized bench-scale batch bioreactor, inoculated with pellets of this fungus and the complex mix of the drugs, was observed. The role of the cytochrome P450 enzymes (CYP) in the biodegradation of the drugs mix were evidenced by the observation of hydroxylated by-products. The results on the reduction of toxicity (micro and phyto) were not conclusive; however, a reduction in phytotoxicity was detected. [ABSTRACT FROM AUTHOR]

Published

2020

13. Effect of Composting Under Semipermeable Film on the Sewage Sludge Virome.

Author

Robledo-Mahón, Tatiana, Silva-Castro, Gloria Andrea, Kuhar, Urška, Jamnikar-Ciglenečki, Urška, Barlič-Maganja, Darja, Aranda, Elisabet, and Calvo, Concepción

Subjects

SEWAGE sludge, PLANT viruses, BACTERIOPHAGES, ENTEROBACTERIACEAE, SLUDGE management, SOIL amendments

Abstract

The addition of compost from sewage sludge to soils represents a sustainable option from an environmental and economic point of view, which involves the valorisation of these wastes. However, before their use as a soil amendment, compost has to reach the quality levels according to the normative, including microbial parameters. Viruses are not included in this regulation and they can produce agricultural problems and human diseases if the compost is not well sanitised. In this study, we carried out the analysis of the viral populations during a composting process with sewage sludge at an industrial scale, using semipermeable cover technology. Viral community was characterised by the presence of plant viruses and bacteriophages of enteric bacteria. The phytopathogen viruses were the group with the highest relative abundance in the sewage sludge sample and at 70 days of the composting process. The diversity of bacterial viruses and their specificity, with respect to the more abundant bacterial taxa throughout the process, highlights the importance of the interrelations between viral and bacterial communities in the control of pathogenic communities. These results suggest the possibility of using them as a tool to predict the effectiveness of the process. [ABSTRACT FROM AUTHOR]

Published

2019

14. New Insights of Ustilago maydis as Yeast Model for Genetic and Biotechnological Research: A Review.

Author

Olicón-Hernández, Dario R., Araiza-Villanueva, Minerva G., Pardo, Juan P., Aranda, Elisabet, and Guerra-Sánchez, Guadalupe

Subjects

USTILAGO maydis, GENETIC models, YEAST fungi, CORN diseases, YEAST

Abstract

The basidiomycete Ustilago maydis is a biotrophic organism responsible for corn smut disease. In recent years, it has become one of the most promising models for biochemical and biotechnological research due to advantages, such as rapid growth, and easy genetic manipulation. In some aspects, this yeast is more similar to complex eukaryotes, such as humans, compared to standard laboratory yeast models. U. maydis can be employed as a tool to explore physiological processes with more versatility than other fungi. Previously, U. maydis was only considered as a phytopathogenic fungus, but different studies have shown its potential as a research model. Therefore, numerous promising studies have focused on deepening our understanding of the natural interactions, enzyme production, and biotechnological capacity. In this review, we explore general characteristics of U. maydis, both as pathogenic and "innocuous" basidiomycete. Additionally, a comparison with other yeast models focusing on genetic, biochemical, and biotechnological research are analyzed, to emphasize the versatility, dynamism, and novelty that U. maydis has as a research model. In this review, we highlight the applications of the yeast form of the fungus; however, since the filamentous form is also of relevance, it is addressed in the present work, as well. [ABSTRACT FROM AUTHOR]

Published

2019

15. Genome and secretome of Chondrostereum purpureum correspond to saprotrophic and phytopathogenic life styles.

Author

Reina, Rocio, Kellner, Harald, Hess, Jaqueline, Jehmlich, Nico, García-Romera, Immaculada, Aranda, Elisabet, Hofrichter, Martin, and Liers, Christiane

Subjects

FUNGI, PHYTOPATHOGENIC microorganisms, LIGNOCELLULOSE, WOOD-decaying fungi, OXIDOREDUCTASES

Abstract

The basidiomycete Chondrostereum purpureum (Silverleaf fungus) is a saprotroph and plant pathogen commercially used for combatting forest “weed” trees in vegetation management. However, little is known about its lignocellulose-degrading capabilities and the enzymatic machinery that is responsible for the degradative potential, and it is not yet clear to which group of wood-rot fungi it actually belongs. Here, we sequenced and analyzed the draft genome of C. purpureum (41.2 Mbp) and performed a quantitative proteomic approach during growth in submerged and solid-state cultures based on soybean meal suspension or containing beech wood supplemented with phenol-rich olive mill residues, respectively. The fungus harbors characteristic lignocellulolytic hydrolases (GH6 and GH7) and oxidoreductases (e.g. laccase, heme peroxidases). High abundance of some of these genes (e.g. 45 laccases, nine GH7) can be explained by gene expansion, e.g. identified for the laccase orthogroup ORTHOMCL11 that exhibits a total of 18 lineage-specific duplications. Other expanded genes families encode for proteins more related to a pathogenic lifestyle (e.g. protease and cytochrome P450s). The fungus responds to the presence of complex growth substrates (lignocellulose, phenolic residues) by the secretion of most of these lignocellulolytic and lignin-modifying enzymes (e.g. alcohol and aryl alcohol oxidases, laccases, GH6, GH7). Based on the genetic and enzymatic constitution, we consider the ‘marasmioid’ fungus C. purpureum as a ‘phytopathogenic’ white-rot fungus (WRF) that possesses a complex extracellular enzyme machinery to accomplish efficient lignocellulose degradation during both saprotrophic and phytopathogenic life phases. [ABSTRACT FROM AUTHOR]

Published

2019

16. Schizophyllum commune: An unexploited source for lignocellulose degrading enzymes.

Author

Tovar‐Herrera, Omar Eduardo, Martha‐Paz, Adriana Mayrel, Pérez‐LLano, Yordanis, Aranda, Elisabet, Tacoronte‐Morales, Juan Enrique, Pedroso‐Cabrera, María Teresa, Arévalo‐Niño, Katiushka, Folch‐Mallol, Jorge Luis, and Batista‐García, Ramón Alberto

Published

2018

17. Overview on the Biochemical Potential of Filamentous Fungi to Degrade Pharmaceutical Compounds.

Author

Olicón-Hernández, Darío R., González-López, Jesús, and Aranda, Elisabet

Subjects

BIOREMEDIATION, PHARMACEUTICAL industry

Abstract

Pharmaceuticals represent an immense business with increased demand due to intensive livestock raising and an aging human population, which guarantee the quality of human life and well-being. However, the development of removal technologies for these compounds is not keeping pace with the swift increase in their use. Pharmaceuticals constitute a potential risk group of multiclass chemicals of increasing concern since they are extremely frequent in all environments and have started to exhibit negative effects on micro- and macro-fauna as well as on human health. In this context, fungi are known to be extremely diverse and poorly studied microorganisms despite being well suited for bioremediation processes, taking into account their metabolic and physiological characteristics for the transformation of even highly toxic xenobiotic compounds. Increasing studies indicate that fungi can transform many structures of pharmaceutical compounds, including anti-inflammatories, b-blockers, and antibiotics. This is possible due to different mechanisms in combination with the extracellular and intracellular enzymes, which have broad of biotechnological applications. Thus, fungi and their enzymes could represent a promising tool to deal with this environmental problem. Here, we review the studies performed on pharmaceutical compounds biodegradation by the great diversity of these eukaryotes. We examine the state of the art of the current application of the Basidiomycota division, best known in this field, as well as the assembly of novel biodegradation pathways within the Ascomycota division and the Mucoromycotina subdivision from the standpoint of shared enzymatic systems, particularly for the cytochrome P450 superfamily of enzymes, which appear to be the key enzymes in these catabolic processes. Finally, we discuss the latest advances in the field of genetic engineering for their further application. [ABSTRACT FROM AUTHOR]

Published

2017

18. Interactions between phenolic compounds present in dry olive residues and the arbuscular mycorrhizal symbiosis.

Author

Montes, Nuria, Reina, Rocío, Ortiz, Tatiana, Ocampo, Juan, García-Romera, Inmaculada, and Aranda, Elisabet

Abstract

The use of 'alpeorujo' (dry olive residue) has been proposed as an organic amendment in order to enhance soil structure and to increase C storage in soils. The aim of this work is to study how aqueous alpeorujo (ADOR) extracts bioremediated with white-rot fungi and three representative phenolic acids present in this extract (protocatechuic, vanillic and caffeic acid) affect the growth of the arbuscular mychorrhizal fungus Rhizophagus custos in monoxenic culture. Our results show that ADOR decreased mycorrhization parameters; however, this negative effect ceased after ADOR bioremediation. Although protocatechuic and vanillic acids have drastic negative effects at high concentrations, these phenols enhance mycorrhization processes at low concentrations and caffeic acid negatively affects symbiosis at low concentrations. Finally, the capacity of root biomass to dissipate individual phenols was also estimated, in which mycorrhized roots improve phenol dissipation in the growth medium in the presence of different phenols. This study highlights the important role played by arbuscular mycorrhiza in protecting plants from phytotoxicity. [ABSTRACT FROM AUTHOR]

Published

2017

19. Exploring the potential of fungi isolated from PAH-polluted soil as a source of xenobiotics-degrading fungi.

Author

Godoy, Patricia, Reina, Rocío, Calderón, Andrea, Wittich, Regina-Michaela, García-Romera, Inmaculada, and Aranda, Elisabet

Subjects

SOIL microbiology, POLYCYCLIC aromatic hydrocarbons, SOIL sampling, FUNGAL growth, ISOLATION of biotechnological microorganisms, XENOBIOTICS

Abstract

The aim of this study was to find polycyclic aromatic hydrocarbon (PAH)-degrading fungi adapted to polluted environments for further application in bioremediation processes. In this study, a total of 23 fungal species were isolated from a historically pyrogenic PAH-polluted soil in Spain and taxonomically identified. The dominant groups in these samples were the ones associated with fungi belonging to the Ascomycota phylum and two isolates belonging to the Mucoromycotina subphylum and Basiodiomycota phylum. We tested their ability to convert the three-ring PAH anthracene in a 42-day time course and analysed their ability to secrete extracellular oxidoreductase enzymes. Among the 23 fungal species screened, 12 were able to oxidize anthracene, leading to the formation of 9,10-anthraquinone as the main metabolite, a less toxic one than the parent compound. The complete removal of anthracene was achieved by three fungal species. In the case of Scopulariopsis brevicaulis, extracellular enzyme independent degradation of the initial 100 μM anthracene occurred, whilst in the case of the ligninolytic fungus Fomes ( Basidiomycota), the same result was obtained with extracellular enzyme-dependent transformation. The yield of accumulated 9,10-anthraquinone was 80 and 91 %, respectively, and Fomes sp. could slowly deplete it from the growth medium when offered alone. These results are indicative for the effectiveness of these fungi for pollutant removal. [ABSTRACT FROM AUTHOR]

Published

2016

20. Conversion of polycyclic aromatic hydrocarbons, methyl naphthalenes and dibenzofuran by two fungal peroxygenases.

Author

Aranda, Elisabet, Ullrich, René, and Hofrichter, Martin

Subjects

BASIDIOMYCETES, PEROXIDASE, HETEROCYCLIC compounds, DIBENZOFURANS, HYDROXYLATION, HYPERBARIC oxygenation, POLYCYCLIC aromatic hydrocarbons

Abstract

The aim of this work has been to study the substrate specificity of two aromatic peroxygenases concerning polyaromatic compounds of different size and structure as well as to identify the key metabolites of their oxidation. Thus, we report here on new pathways and reactions for 2-methylnaphthalene, 1-methylnaphthalene, dibenzofuran, fluorene, phenanthrene, anthracene and pyrene catalyzed by peroxygenases from Agrocybe aegerita and Coprinellus radians (abbreviated as AaP and CrP). AaP hydroxylated the aromatic rings of all substrates tested at different positions, whereas CrP showed a limited capacity for aromatic ring-hydroxylation and did not hydroxylate phenanthrene but preferably oxygenated fluorene at the non-aromatic C9-carbon and methylnaphthalenes at the side chain. The results demonstrate for the first time the broad substrate specificity of fungal peroxygenases for polyaromatic compounds, and they are discussed in terms of their biocatalytic and environmental implications. [ABSTRACT FROM AUTHOR]

Published

2010

21. Design of Bio-Absorbent Systems for the Removal of Hydrocarbons from Industrial Wastewater: Pilot-Plant Scale.

Author

Silva-Castro, Gloria Andrea, Rodríguez-Calvo, Alfonso, Robledo-Mahón, Tatiana, Aranda, Elisabet, González-López, Jesús, and Calvo, Concepción

Subjects

INDUSTRIAL wastes, SEWAGE, HYDROCARBONS, MICROBIAL diversity, MANUFACTURING processes, BIOLOGICAL nutrient removal, IN situ bioremediation

Abstract

The objective of this study was the development and design of a treatment system at a pilot-plant scale for the remediation of hydrocarbons in industrial wastewater. The treatment consists of a combined approach of absorption and biodegradation to obtain treated water with sufficient quality to be reused in fire defense systems (FDSs). The plant consists of four vertical flow columns (bioreactors) made of stainless steel (ATEX Standard) with dimensions of 1.65 × 0.5 m and water volumes of 192.4 L. Each bioreactor includes a holder to contain the absorbent material (Pad Sentec polypropylene). The effectiveness of the treatment system has been studied in wastewater with high and low pollutant loads (concentrations higher than 60,000 mg L−1 of total petroleum hydrocarbons (TPH) and lower than 500 mg L−1 of TPHs, respectively). The pilot-plant design can function at two different flow rates, Q1 (180 L h−1) and Q2 (780 L h−1), with or without additional aeration. The results obtained for strongly polluted wastewaters showed that, at low flow rates, additional aeration enhanced hydrocarbon removal, while aeration was unnecessary at high flow rates. For wastewater with a low pollutant load, we selected a flow rate of 780 L h−1 without aeration. Different recirculation times were also tested along with the application of a post-treatment lasting 7 days inside the bioreactor without recirculation. The microbial diversity studies showed similar populations of bacteria and fungi in the inlet and outlet wastewater. Likewise, high similarity indices were observed between the adhered and suspended biomass within the bioreactors. The results showed that the setup and optimization of the reactor represent a step forward in the application of bioremediation processes at an industrial/large scale. [ABSTRACT FROM AUTHOR]

Published

2021

22. ROS-Scavenging Enzymes as an Antioxidant Response to High Concentration of Anthracene in the Liverwort Marchantia polymorpha L.

Author

Spinedi, Nahuel, Storb, Romina, Aranda, Elisabet, Romani, Facundo, Svriz, Maya, Varela, Santiago A., Moreno, Javier E., Fracchia, Sebastian, Cabrera, Juan, Batista-García, Ramón Alberto, Ponce de León, Inés, and Scervino, J. Martín

Subjects

ANTIOXIDANTS, ANTHRACENE, ENZYMES, PLANT biomass, LIVERWORTS, PLANT cells & tissues, PHOTOSYNTHETIC rates

Abstract

Marchantia polymorpha L. responds to environmental changes using a myriad set of physiological responses, some unique to the lineage related to the lack of a vascular- and root-system. This study investigates the physiological response of M. polymorpha to high doses of anthracene analysing the antioxidant enzymes and their relationship with the photosynthetic processes, as well as their transcriptomic response. We found an anthracene dose-dependent response reducing plant biomass and associated to an alteration of the ultrastructure of a 23.6% of chloroplasts. Despite a reduction in total thallus-chlorophyll of 31.6% of Chl a and 38.4% of Chl b, this was not accompanied by a significant change in the net photosynthesis rate and maximum quantum efficiency (Fv/Fm). However, we found an increase in the activity of main ROS-detoxifying enzymes of 34.09% of peroxidase and 692% of ascorbate peroxidase, supported at transcriptional level with the upregulation of ROS-related detoxifying responses. Finally, we found that M. polymorpha tolerated anthracene-stress under the lowest concentration used and can suffer physiological alterations under higher concentrations tested related to the accumulation of anthracene within plant tissues. Our results show that M. polymorpha under PAH stress condition activated two complementary physiological responses including the activation of antioxidant mechanisms and the accumulation of the pollutant within plant tissues to mitigate the damage to the photosynthetic apparatus. [ABSTRACT FROM AUTHOR]

Published

2021

23. Evaluation of the Potential of Sewage Sludge Mycobiome to Degrade High Diclofenac and Bisphenol-A Concentrations.

Author

Conejo-Saucedo, Ulises, Ledezma-Villanueva, Alejandro, Ángeles de Paz, Gabriela, Herrero-Cervera, Mario, Calvo, Concepción, and Aranda, Elisabet

Subjects

DICLOFENAC, FOOD additives, BISPHENOL A, SEWAGE disposal plants, BIOCONVERSION, SEWAGE sludge, COTTON aphid

Abstract

One of the most challenging environmental threats of the last two decades is the effects of emerging pollutants (EPs) such as pharmaceutical compounds or industrial additives. Diclofenac and bisphenol A have regularly been found in wastewater treatment plants, and in soils and water bodies because of their extensive usage and their recalcitrant nature. Due to the fact of this adversity, fungal communities play an important role in being able to safely degrade EPs. In this work, we obtained a sewage sludge sample to study both the culturable and non-culturable microorganisms through DNA extraction and massive sequencing using Illumina MiSeq techniques, with the goal of finding degraders adapted to polluted environments. Afterward, degradation experiments on diclofenac and bisphenol A were performed with the best fungal degraders. The analysis of bacterial diversity showed that Dethiosulfovibrionaceae, Comamonadaceae, and Isosphaeraceae were the most abundant families. A predominance of Ascomycota fungi in the culturable and non-culturable population was also detected. Species such as Talaromyces gossypii, Syncephalastrum monosporum, Aspergillus tabacinus, and Talaromyces verruculosus had remarkable degradation rates, up to 80% of diclofenac and bisphenol A was fully degraded. These results highlight the importance of characterizing autochthonous microorganisms and the possibility of selecting native fungal microorganisms to develop tailored biotransformation technologies for EPs. [ABSTRACT FROM AUTHOR]

Published

2021