Your search keyword '"Iturbe-Espinoza P"' showing total 8 results

1. Correlating the succession of microbial communities from Nigerian soils to petroleum biodegradation

Author

Iturbe-Espinoza, Paul, Bonte, Matthijs, Weedon, James T, Braster, Martin, Brandt, Bernd W, and van Spanning, Rob JM

Published

2023

2. Methanotrophy by a Mycobacterium species that dominates a cave microbial ecosystem

Author

van Spanning, Rob J. M., Guan, Qingtian, Melkonian, Chrats, Gallant, James, Polerecky, Lubos, Flot, Jean-François, Brandt, Bernd W., Braster, Martin, Iturbe Espinoza, Paul, Aerts, Joost W., Meima-Franke, Marion M., Piersma, Sander R., Bunduc, Catalin M., Ummels, Roy, Pain, Arnab, Fleming, Emily J., van der Wel, Nicole N., Gherman, Vasile D., Sarbu, Serban M., Bodelier, Paul L. E., and Bitter, Wilbert

Published

2022

3. Effects of DNA preservation solution and DNA extraction methods on microbial community profiling of soil

Author

Iturbe-Espinoza, Paul, Brandt, Bernd W., Braster, Martin, Bonte, Matthijs, Brown, David M., and van Spanning, Rob J. M.

Published

2021

4. Oil Absorbent Polypropylene Particles Stimulate Biodegradation of Crude Oil by Microbial Consortia

Author

Madalina M. Vita, Paul Iturbe-Espinoza, Matthijs Bonte, Bernd W. Brandt, Martin Braster, David M. Brown, and Rob J. M. van Spanning

Subjects

biofilm, bioremediation, polypropylene, crude oil, microbial communities, Microbiology, QR1-502

Abstract

Oil absorbent particles made from surface-modified polypropylene can be used to facilitate the removal of oil from the environment. In this study, we investigated to what extent absorbed oil was biodegraded and how this compared to the biodegradation of oil in water. To do so, we incubated two bacterial communities originating from the Niger Delta, an area subject to frequent oil spills, in the presence and absence of polypropylene particles. One community evolved from untreated soil whereas the second evolved from soil pre-exposed to oil. We observed that the polypropylene particles stimulated the growth of biofilms and enriched species from genera Mycobacterium, Sphingomonas and Parvibaculum. Cultures with polypropylene particles degraded more crude oil than those where the oil was present in suspension regardless of whether they were pre-exposed or not. Moreover, the community pre-exposed to crude oil had a different community structure and degraded more oil than the one from untreated soil. We conclude that the biodegradation rate of crude oil was enhanced by the pre-exposure of the bacterial communities to crude oil and by the use of oil-absorbing polypropylene materials. The data show that bacterial communities in the biofilms growing on the particles have an enhanced degradation capacity for oil.

Published

2022

5. The Fungus Tremella mesenterica Encodes the Longest Metallothionein Currently Known: Gene, Protein and Metal Binding Characterization.

Author

Paul Iturbe-Espinoza, Selene Gil-Moreno, Weiyu Lin, Sara Calatayud, Òscar Palacios, Mercè Capdevila, and Sílvia Atrian

Subjects

Medicine, Science

Abstract

Fungal Cu-thioneins, and among them, the paradigmatic Neurospora crassa metallothionein (MT) (26 residues), were once considered as the shortest MTs--the ubiquitous, versatile metal-binding proteins--among all organisms, and thus representatives of their primeval forms. Nowadays, fungal MTs of diverse lengths and sequence features are known, following the huge heterogeneity of the Kingdom of Fungi. At the opposite end of N. crassa MT, the recently reported Cryptococcus neoformans CnMT1 and CnMT2 (122 and 186 aa) constitute the longest reported fungal MTs, having been identified as virulence factors of this pathogen. CnMTs are high-capacity Cu-thioneins that appear to be built by tandem amplification of a basic unit, a 7-Cys segment homologous to N. crassa MT. Here, we report the in silico, in vivo and in vitro study of a still longer fungal MT, belonging to Tremella mesenterica (TmMT), a saprophytic ascomycete. The TmMT gene has 10 exons, and it yields a 779-bp mature transcript that encodes a 257 residue-long protein. This MT is also built by repeated fragments, but of variable number of Cys: six units of the 7-Cys building blocks--CXCX3CSCPPGXCXCAXCP-, two fragments of six Cys, plus three Cys at the N-terminus. TmMT metal binding abilities have been analyzed through the spectrophotometric and spectrometric characterization of its recombinant Zn-, Cd- and Cu-complexes. Results allow it to be unambiguous classified as a Cu-thionein, also of extraordinary coordinating capacity. According to this feature, when the TmMT cDNA is expressed in MT-devoid yeast cells, it is capable of restoring a high Cu tolerance level. Since it is not obvious that T. mesenterica shares the same physiological needs for a high capacity Cu-binding protein with C. neoformans, the existence of this peculiar MT might be better explained on the basis of a possible role in Cu-handling for the Cu-enzymes responsible in lignin degradation pathways.

Published

2016

6. Adaptive changes of sediment microbial communities associated with cleanup of oil spills in Nigerian mangrove forests.

Author

Iturbe-Espinoza, Paul, Bonte, Matthijs, Gundlach, Erich, Brandt, Bernd W., Braster, Martin, and van Spanning, Rob J.M.

Subjects

MANGROVE forests, OIL spill cleanup, MICROBIAL communities, MICROBIAL diversity, FOREST succession, OIL spills, BACTERIAL communities, SEDIMENTS

Abstract

The objectives of this study were to assess the influence on microbial communities resulting from i) the physical removal of free oil (pre-treatment or post-treatment), and ii) the level of oiling within a contaminated former mangrove forest. Sediment samples were collected before and after the removal of free oil. Before the process of remediation, a highly biodiverse mangrove microbiome which had adapted to history of recurring oil spills was observed. After removing the surface oil, the microbial diversity of the sediments reduced, with members of the phyla Firmicutes and Proteobacteria becoming dominant. This indicates that while water flushing reduced overall microbial diversity, it stimulated the growth of a more specialized bacterial community reported to be involved in hydrocarbon biodegradation. These results provide new insights on microbial communities and their succession in mangrove forest sediments, that will be useful for monitoring oil cleaning programs using water flushing to remove free oil. • Soil microbial communities play a key role in the natural attenuation of oil spills. • Water flushing influences communities with a selection of specialized bacteria. • The gradient of oil did not explain the differences in microbial community structures. • The microbial profiles cluster according to spill and treatment stages. [ABSTRACT FROM AUTHOR]

Published

2022

7. Oil Absorbent Polypropylene Particles Stimulate Biodegradation of Crude Oil by Microbial Consortia.

Author

Vita MM, Iturbe-Espinoza P, Bonte M, Brandt BW, Braster M, Brown DM, and van Spanning RJM

Abstract

Oil absorbent particles made from surface-modified polypropylene can be used to facilitate the removal of oil from the environment. In this study, we investigated to what extent absorbed oil was biodegraded and how this compared to the biodegradation of oil in water. To do so, we incubated two bacterial communities originating from the Niger Delta, an area subject to frequent oil spills, in the presence and absence of polypropylene particles. One community evolved from untreated soil whereas the second evolved from soil pre-exposed to oil. We observed that the polypropylene particles stimulated the growth of biofilms and enriched species from genera Mycobacterium , Sphingomonas and Parvibaculum . Cultures with polypropylene particles degraded more crude oil than those where the oil was present in suspension regardless of whether they were pre-exposed or not. Moreover, the community pre-exposed to crude oil had a different community structure and degraded more oil than the one from untreated soil. We conclude that the biodegradation rate of crude oil was enhanced by the pre-exposure of the bacterial communities to crude oil and by the use of oil-absorbing polypropylene materials. The data show that bacterial communities in the biofilms growing on the particles have an enhanced degradation capacity for oil., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Vita, Iturbe-Espinoza, Bonte, Brandt, Braster, Brown and van Spanning.)

Published

2022

8. The Fungus Tremella mesenterica Encodes the Longest Metallothionein Currently Known: Gene, Protein and Metal Binding Characterization.

Author

Iturbe-Espinoza P, Gil-Moreno S, Lin W, Calatayud S, Palacios Ò, Capdevila M, and Atrian S

Subjects

Basidiomycota metabolism, Cadmium chemistry, Circular Dichroism, Copper chemistry, Metabolic Networks and Pathways, Metallothionein chemistry, Metallothionein metabolism, Protein Binding, Spectrometry, Mass, Electrospray Ionization, Zinc chemistry, Amino Acid Sequence genetics, Basidiomycota genetics, Lignin metabolism, Metallothionein genetics

Abstract

Fungal Cu-thioneins, and among them, the paradigmatic Neurospora crassa metallothionein (MT) (26 residues), were once considered as the shortest MTs--the ubiquitous, versatile metal-binding proteins--among all organisms, and thus representatives of their primeval forms. Nowadays, fungal MTs of diverse lengths and sequence features are known, following the huge heterogeneity of the Kingdom of Fungi. At the opposite end of N. crassa MT, the recently reported Cryptococcus neoformans CnMT1 and CnMT2 (122 and 186 aa) constitute the longest reported fungal MTs, having been identified as virulence factors of this pathogen. CnMTs are high-capacity Cu-thioneins that appear to be built by tandem amplification of a basic unit, a 7-Cys segment homologous to N. crassa MT. Here, we report the in silico, in vivo and in vitro study of a still longer fungal MT, belonging to Tremella mesenterica (TmMT), a saprophytic ascomycete. The TmMT gene has 10 exons, and it yields a 779-bp mature transcript that encodes a 257 residue-long protein. This MT is also built by repeated fragments, but of variable number of Cys: six units of the 7-Cys building blocks--CXCX3CSCPPGXCXCAXCP-, two fragments of six Cys, plus three Cys at the N-terminus. TmMT metal binding abilities have been analyzed through the spectrophotometric and spectrometric characterization of its recombinant Zn-, Cd- and Cu-complexes. Results allow it to be unambiguous classified as a Cu-thionein, also of extraordinary coordinating capacity. According to this feature, when the TmMT cDNA is expressed in MT-devoid yeast cells, it is capable of restoring a high Cu tolerance level. Since it is not obvious that T. mesenterica shares the same physiological needs for a high capacity Cu-binding protein with C. neoformans, the existence of this peculiar MT might be better explained on the basis of a possible role in Cu-handling for the Cu-enzymes responsible in lignin degradation pathways.

Published

2016