Your search keyword '"Esteban, Genoveva F."' showing total 35 results

1. Introduction to the special issue: Bland J. Finlay: uncovering the unseen world of microbes

Author

Esteban, Genoveva F., Maberly, Stephen C., Esteban, Genoveva F., and Maberly, Stephen C.

Abstract

Full text available from Related URLs link.

Published

2023

2. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., Embley, T. Martin, Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., and Embley, T. Martin

Abstract

Hydrogenosomes are H-2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H-2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H-2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

3. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., Embley, T. Martin, Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., and Embley, T. Martin

Abstract

Hydrogenosomes are H-2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H-2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H-2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

4. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., Embley, T. Martin, Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., and Embley, T. Martin

Abstract

Hydrogenosomes are H-2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H-2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H-2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

5. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., Embley, T. Martin, Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., and Embley, T. Martin

Abstract

Hydrogenosomes are H-2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H-2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H-2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

6. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., Embley, T. Martin, Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., and Embley, T. Martin

Abstract

Hydrogenosomes are H-2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H-2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H-2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

7. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H., Lind, Anders E., Sendra, Kacper M., Onsbring, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J.G., Embley, T.M., Lewis, William H., Lind, Anders E., Sendra, Kacper M., Onsbring, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J.G., and Embley, T.M.

Abstract

Hydrogenosomes are H2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

8. Convergent Evolution of Hydrogenosomes from Mitochondria by Gene Transfer and Loss

Author

Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., Embley, T. Martin, Lewis, William H, Lind, Anders E., Sendra, Kacper M., Onsbring Gustafson, Henning, Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs J. G., and Embley, T. Martin

Abstract

Hydrogenosomes are H-2-producing mitochondrial homologs found in some anaerobic microbial eukaryotes that provide a rare intracellular niche for H-2-utilizing endosymbiotic archaea. Among ciliates, anaerobic and aerobic lineages are interspersed, demonstrating that the switch to an anaerobic lifestyle with hydrogenosomes has occurred repeatedly and independently. To investigate the molecular details of this transition, we generated genomic and transcriptomic data sets from anaerobic ciliates representing three distinct lineages. Our data demonstrate that hydrogenosomes have evolved from ancestral mitochondria in each case and reveal different degrees of independent mitochondrial genome and proteome reductive evolution, including the first example of complete mitochondrial genome loss in ciliates. Intriguingly, the FeFe-hydrogenase used for generating H-2 has a unique domain structure among eukaryotes and appears to have been present, potentially through a single lateral gene transfer from an unknown donor, in the common aerobic ancestor of all three lineages. The early acquisition and retention of FeFe-hydrogenase helps to explain the facility whereby mitochondrial function can be so radically modified within this diverse and ecologically important group of microbial eukaryotes.

Published

2020

9. Cosmopolitan Metapopulations?

Author

Fenchel, Tom, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, Finlay, Bland J., and Esteban, Genoveva F.

Published

2019

10. Ciliophora sp. Raw sequence reads

Author

Lewis, William, Lind, Anders E., Sendra, Kacper M., Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs, Embley, T.M., Lewis, William, Lind, Anders E., Sendra, Kacper M., Williams, Tom A., Esteban, Genoveva F., Hirt, Robert P., Ettema, Thijs, and Embley, T.M.

Abstract

Investigating the repeated convergent evolution of ciliate hydrogenosomes from three distinct lineages, using a combined genomic and transcriptomic datasets

Published

2019

11. Cosmopolitan Metapopulations?

Author

Fenchel, Tom, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, Finlay, Bland J., and Esteban, Genoveva F.

Published

2019

12. Molecular Investigation of the Ciliate Spirostomum semivirescens, with First Transcriptome and New Geographical Records

Author

Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., Esteban, Genoveva F., Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., and Esteban, Genoveva F.

Abstract

The ciliate Spirostomum semivirescens is a large freshwater protist densely packed with endosymbiotic algae and capable of building a protective coating from surrounding particles. The species has been rarely recorded and it lacks any molecular investigations. We obtained such data from S. semivirescens isolated in the UK and Sweden. Using single-cell RNA sequencing of isolates from both countries, the transcriptome of S. semivirescens was generated. A phylogenetic analysis identified S. semivirescens as a close relative to S. minus. Additionally, rRNA sequence analysis of the green algal endosymbiont revealed that it is closely related to Chlorella vulgaris. Along with the molecular species identification, an analysis of the ciliates' stop codons was carried out, which revealed a relationship where TGA stop codon frequency decreased with increasing gene expression levels. The observed codon bias suggests that S. semivirescens could be in an early stage of reassigning the TGA stop codon. Analysis of the transcriptome indicates that S. semivirescens potentially uses rhodoquinol-dependent fumarate reduction to respire in the oxygen-depleted habitats where it lives. The data also shows that despite large geographical distances (over 1,600 km) between the sampling sites investigated, a morphologically-identical species can share an exact molecular signature, suggesting that some ciliate species, even those over 1 mm in size, could have a global biogeographical distribution., Hunter N. Hines and Henning Onsbring contributed equally to this work.

Published

2018

13. Molecular Investigation of the Ciliate Spirostomum semivirescens, with First Transcriptome and New Geographical Records

Author

Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., Esteban, Genoveva F., Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., and Esteban, Genoveva F.

Abstract

The ciliate Spirostomum semivirescens is a large freshwater protist densely packed with endosymbiotic algae and capable of building a protective coating from surrounding particles. The species has been rarely recorded and it lacks any molecular investigations. We obtained such data from S. semivirescens isolated in the UK and Sweden. Using single-cell RNA sequencing of isolates from both countries, the transcriptome of S. semivirescens was generated. A phylogenetic analysis identified S. semivirescens as a close relative to S. minus. Additionally, rRNA sequence analysis of the green algal endosymbiont revealed that it is closely related to Chlorella vulgaris. Along with the molecular species identification, an analysis of the ciliates' stop codons was carried out, which revealed a relationship where TGA stop codon frequency decreased with increasing gene expression levels. The observed codon bias suggests that S. semivirescens could be in an early stage of reassigning the TGA stop codon. Analysis of the transcriptome indicates that S. semivirescens potentially uses rhodoquinol-dependent fumarate reduction to respire in the oxygen-depleted habitats where it lives. The data also shows that despite large geographical distances (over 1,600 km) between the sampling sites investigated, a morphologically-identical species can share an exact molecular signature, suggesting that some ciliate species, even those over 1 mm in size, could have a global biogeographical distribution., Hunter N. Hines and Henning Onsbring contributed equally to this work.

Published

2018

14. Molecular Investigation of the Ciliate Spirostomum semivirescens, with First Transcriptome and New Geographical Records

Author

Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., Esteban, Genoveva F., Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., and Esteban, Genoveva F.

Abstract

The ciliate Spirostomum semivirescens is a large freshwater protist densely packed with endosymbiotic algae and capable of building a protective coating from surrounding particles. The species has been rarely recorded and it lacks any molecular investigations. We obtained such data from S. semivirescens isolated in the UK and Sweden. Using single-cell RNA sequencing of isolates from both countries, the transcriptome of S. semivirescens was generated. A phylogenetic analysis identified S. semivirescens as a close relative to S. minus. Additionally, rRNA sequence analysis of the green algal endosymbiont revealed that it is closely related to Chlorella vulgaris. Along with the molecular species identification, an analysis of the ciliates' stop codons was carried out, which revealed a relationship where TGA stop codon frequency decreased with increasing gene expression levels. The observed codon bias suggests that S. semivirescens could be in an early stage of reassigning the TGA stop codon. Analysis of the transcriptome indicates that S. semivirescens potentially uses rhodoquinol-dependent fumarate reduction to respire in the oxygen-depleted habitats where it lives. The data also shows that despite large geographical distances (over 1,600 km) between the sampling sites investigated, a morphologically-identical species can share an exact molecular signature, suggesting that some ciliate species, even those over 1 mm in size, could have a global biogeographical distribution., Hunter N. Hines and Henning Onsbring contributed equally to this work.

Published

2018

15. Molecular Investigation of the Ciliate Spirostomum semivirescens, with First Transcriptome and New Geographical Records

Author

Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., Esteban, Genoveva F., Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., and Esteban, Genoveva F.

Abstract

The ciliate Spirostomum semivirescens is a large freshwater protist densely packed with endosymbiotic algae and capable of building a protective coating from surrounding particles. The species has been rarely recorded and it lacks any molecular investigations. We obtained such data from S. semivirescens isolated in the UK and Sweden. Using single-cell RNA sequencing of isolates from both countries, the transcriptome of S. semivirescens was generated. A phylogenetic analysis identified S. semivirescens as a close relative to S. minus. Additionally, rRNA sequence analysis of the green algal endosymbiont revealed that it is closely related to Chlorella vulgaris. Along with the molecular species identification, an analysis of the ciliates' stop codons was carried out, which revealed a relationship where TGA stop codon frequency decreased with increasing gene expression levels. The observed codon bias suggests that S. semivirescens could be in an early stage of reassigning the TGA stop codon. Analysis of the transcriptome indicates that S. semivirescens potentially uses rhodoquinol-dependent fumarate reduction to respire in the oxygen-depleted habitats where it lives. The data also shows that despite large geographical distances (over 1,600 km) between the sampling sites investigated, a morphologically-identical species can share an exact molecular signature, suggesting that some ciliate species, even those over 1 mm in size, could have a global biogeographical distribution., Hunter N. Hines and Henning Onsbring contributed equally to this work.

Published

2018

16. Molecular Investigation of the Ciliate Spirostomum semivirescens, with First Transcriptome and New Geographical Records

Author

Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., Esteban, Genoveva F., Hines, Hunter N., Onsbring Gustafson, Henning, Ettema, Thijs J. G., and Esteban, Genoveva F.

Abstract

The ciliate Spirostomum semivirescens is a large freshwater protist densely packed with endosymbiotic algae and capable of building a protective coating from surrounding particles. The species has been rarely recorded and it lacks any molecular investigations. We obtained such data from S. semivirescens isolated in the UK and Sweden. Using single-cell RNA sequencing of isolates from both countries, the transcriptome of S. semivirescens was generated. A phylogenetic analysis identified S. semivirescens as a close relative to S. minus. Additionally, rRNA sequence analysis of the green algal endosymbiont revealed that it is closely related to Chlorella vulgaris. Along with the molecular species identification, an analysis of the ciliates' stop codons was carried out, which revealed a relationship where TGA stop codon frequency decreased with increasing gene expression levels. The observed codon bias suggests that S. semivirescens could be in an early stage of reassigning the TGA stop codon. Analysis of the transcriptome indicates that S. semivirescens potentially uses rhodoquinol-dependent fumarate reduction to respire in the oxygen-depleted habitats where it lives. The data also shows that despite large geographical distances (over 1,600 km) between the sampling sites investigated, a morphologically-identical species can share an exact molecular signature, suggesting that some ciliate species, even those over 1 mm in size, could have a global biogeographical distribution., Hunter N. Hines and Henning Onsbring contributed equally to this work.

Published

2018

17. Local ciliate communities associated with aquatic macrophytes

Author

Yeates, Anna M., Esteban, Genoveva F., Yeates, Anna M., and Esteban, Genoveva F.

Abstract

This study, based within the catchment area of the River Frome, an important chalk stream in the south of England, compared ciliated protozoan communities associated with three species of aquatic macrophyte common to lotic habitats: Ranunculus penicillatus subsp. pseudofluitans, Nasturtium officinale and Sparganium emersum. A total of 77 ciliate species were counted. No species-specific ciliate assemblage was found to be typical of any one plant species. Ciliate abundance between plant species was determined to be significantly different. The ciliate communities from each plant species were unique in that the number of species increased with ciliate abundance. The community associated with R. penicillatus subsp. pseudofluitans showed the highest consistency and species richness whereas S. emersum ciliate communities were unstable. Most notably, N. officinale was associated with low ciliate abundances and an apparent reduction in biofilm formation, discussed herein in relation to the plant’s production of the microbial toxin phenethyl isothiocyanate. We propose that the results reflect differences in the quantity and quality of biofilm present on the plants, which could be determined by the different plant morphologies, patterns of plant decay and herbivore defense systems, all of which suppress or promote the various conditions for biofilm growth. [Int Microbiol 2014; 17(1):31-40]Keywords: Ranunculus · Nasturtium · toxin phenethyl isothiocyanate (PEITC) · biofilms · macrophytes · ciliates · microbial biodiversity

Published

2014

18. Local ciliate communities associated with aquatic macrophytes

Author

Yeates, Anna M., Esteban, Genoveva F., Yeates, Anna M., and Esteban, Genoveva F.

Abstract

This study, based within the catchment area of the River Frome, an important chalk stream in the south of England, compared ciliated protozoan communities associated with three species of aquatic macrophyte common to lotic habitats: Ranunculus penicillatus subsp. pseudofluitans, Nasturtium officinale and Sparganium emersum. A total of 77 ciliate species were counted. No species-specific ciliate assemblage was found to be typical of any one plant species. Ciliate abundance between plant species was determined to be significantly different. The ciliate communities from each plant species were unique in that the number of species increased with ciliate abundance. The community associated with R. penicillatus subsp. pseudofluitans showed the highest consistency and species richness whereas S. emersum ciliate communities were unstable. Most notably, N. officinale was associated with low ciliate abundances and an apparent reduction in biofilm formation, discussed herein in relation to the plant’s production of the microbial toxin phenethyl isothiocyanate. We propose that the results reflect differences in the quantity and quality of biofilm present on the plants, which could be determined by the different plant morphologies, patterns of plant decay and herbivore defense systems, all of which suppress or promote the various conditions for biofilm growth. [Int Microbiol 2014; 17(1):31-40]Keywords: Ranunculus · Nasturtium · toxin phenethyl isothiocyanate (PEITC) · biofilms · macrophytes · ciliates · microbial biodiversity

Published

2014

19. New records of the ectoparasitic flagellate Colpodella gonderi on non-Colpoda ciliates

Author

Olmo, José Luis, Esteban, Genoveva F., Finlay, Bland J., Olmo, José Luis, Esteban, Genoveva F., and Finlay, Bland J.

Abstract

Colpodella gonderi is the only ectoparasitic flagellate of ciliated protozoa described thus far. This investigation reveals new records of C. gonderi retrieved from soil samples in southern Scotland, UK. Of fourteen ciliates species identified in one single occasion, three of them, Colpoda steinii, Pseudoplatyophrya nana and Grossglockneria acuta, were infested with the parasite. These results provide further evidence that C. gonderi is not host-specific of the ciliate genus Colpoda.

Published

2012

20. New records of the ectoparasitic flagellate Colpodella gonderi on non-Colpoda ciliates

Author

Olmo, José Luis, Esteban, Genoveva F., Finlay, Bland J., Olmo, José Luis, Esteban, Genoveva F., and Finlay, Bland J.

Abstract

Colpodella gonderi is the only ectoparasitic flagellate of ciliated protozoa described thus far. This investigation reveals new records of C. gonderi retrieved from soil samples in southern Scotland, UK. Of fourteen ciliates species identified in one single occasion, three of them, Colpoda steinii, Pseudoplatyophrya nana and Grossglockneria acuta, were infested with the parasite. These results provide further evidence that C. gonderi is not host-specific of the ciliate genus Colpoda.

Published

2012

21. Mixotrophy in ciliates

Author

Esteban, Genoveva F., Fenchel, Tom, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, and Finlay, Bland J.

Published

2010

22. Mixotrophy in ciliates

Author

Esteban, Genoveva F., Fenchel, Tom, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, and Finlay, Bland J.

Published

2010

23. Exploring Leeuwenhoek's legacy: the abundance and diversity of protozoa

Author

Finlay, Bland J., Esteban, Genoveva F., Finlay, Bland J., and Esteban, Genoveva F.

Abstract

Towards the end of the 17th century, Leeuwenhoek built “magnifying glasses” that enabled him to see and describe protozoa for the first time. Continued exploration of the natural history of protozoa during the past 300 years has progressed far beyond simply documenting morphospecies global total probably

Published

2010

24. Multiple cosmopolitan ecotypes within a microbial eukaryote morphospecies

Author

Finlay, Bland J., Esteban, Genoveva F., Brown, Susan, Fenchel, Tom, Hoef-Emden, Kerstin, Finlay, Bland J., Esteban, Genoveva F., Brown, Susan, Fenchel, Tom, and Hoef-Emden, Kerstin

Abstract

Microbial eukaryotes that are morphologically indistinguishable (i.e. ‘morphospecies’) tend to be genetically diverse. While most protist morphospecies have cosmopolitan distribution, it has been suggested that ribotypes (unique rRNA gene sequences) or rRNA sequence clusters do have biogeography and such clusters may correlate with particular (non-morphological) adaptations. We have studied this in the ciliated protozoan morphospecies Cyclidium glaucoma. Fifty-four isolates collected worldwide represented 31 distinct ribotypes. There was no evidence of biogeographic distribution patterns. For example, identical ribotypes occurred in samples from Argentina, Peru, Morocco, Russia and Ukraine; in samples from Denmark and Australia; and in samples from Great Salt Lake and hyperhaline ponds in Spain. The morphospecies Cyclidium glaucoma is euryhaline and occurs in freshwater, brackish water, seawater, and hyperhaline waters. Evidence suggests that one ribotype cluster occurs only in marine or brackish habitats, and another one has so far been found only in hyperhaline habitats. Two clades seem to occur only in freshwater, but one clade includes ribotypes that were found in freshwater as well as in brackish water.

Published

2006

25. Evidence for cosmopolitan ecotypes within the ciliate Cyclidium glaucoma

Author

Brown, Susan, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, Hoef-Emden, Kerstin, Brown, Susan, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, and Hoef-Emden, Kerstin

Abstract

Many protistan morphospecies have been demonstrated to harbour a high degree of genetic diversity. Whilst the morphotype itself is assumed to have been conserved as an adaptive peak, the ecological significance of the cryptic genetic diversity within a morphospecies is poorly understood. In this study, ribosomal DNA (rDNA) sequence variation within the common and ubiquitous ciliate morphospecies Cyclidium glaucoma has been investigated. A total of 54 sequences from both clonal cultures and environmental samples (using a specific primer) have been obtained from 47 locations over seven continents. Sequence comparisons reveal three lineages which correlate with the salinities of the habitats from which the sequences were obtained. Ribotypes isolated from hyperhaline habitats formed a discrete sub-cluster. But there is no detectable geographic pattern in the distribution of C. glaucoma ribotypes, for example, sequences originating from Argentina, Peru, Japan, Morocco, Russia and Ukraine were identical, as were those from Denmark and Australia. The significance of these results will be discussed; do the rDNA sequence clusters represent cosmopolitan ecotypes?

Published

2006

26. Soil protozoa - An intensive study of population dynamics and community structure in an upland grassland

Author

Esteban, Genoveva F., Clarke, K. J., Olmo, J. L., Finlay, Bland J., Esteban, Genoveva F., Clarke, K. J., Olmo, J. L., and Finlay, Bland J.

Abstract

We focus on the key results from a 3-year intensive investigation of soil protozoan diversity sponsored by the Natural Environment Research Council (UK). The investigation enabled us to study simultaneously all major protozoan groups at a single site—the 1 ha area of upland grassland at the Macaulay Land Use Research Institute's Sourhope Research Station in Southern Scotland. A total of 365 protozoan species were recorded, in four broad taxonomic groups—ciliates, testate amoebae, naked amoebae and flagellates. We explored the natural history of these groups, recording species richness, growth rates, and absolute abundance, as well as community structures within the context of the fractal character of the soil. We developed methods for estimating the abundance and growth potential of the soil protozoan community, plus seasonal variation in protozoan abundance within taxonomic groups. We isolated new species, re-described others, and produced a guide to the identification of testate amoebae in soil. We produced evidence for the ubiquitous random dispersal of soil protozoa, and we found no evidence for geographically restricted distributions at spatial scales ranging from 4 m2 to global. Roughly one quarter of global free-living protozoan diversity was recorded from this 1 ha site. Local and global abundances were correlated—i.e. species that are locally rare tend to be globally rare, and those that are locally abundant tend to be globally abundant

Published

2006

27. Evidence for cosmopolitan ecotypes within the ciliate Cyclidium glaucoma

Author

Brown, Susan, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, Hoef-Emden, Kerstin, Brown, Susan, Finlay, Bland J., Esteban, Genoveva F., Fenchel, Tom, and Hoef-Emden, Kerstin

Abstract

Many protistan morphospecies have been demonstrated to harbour a high degree of genetic diversity. Whilst the morphotype itself is assumed to have been conserved as an adaptive peak, the ecological significance of the cryptic genetic diversity within a morphospecies is poorly understood. In this study, ribosomal DNA (rDNA) sequence variation within the common and ubiquitous ciliate morphospecies Cyclidium glaucoma has been investigated. A total of 54 sequences from both clonal cultures and environmental samples (using a specific primer) have been obtained from 47 locations over seven continents. Sequence comparisons reveal three lineages which correlate with the salinities of the habitats from which the sequences were obtained. Ribotypes isolated from hyperhaline habitats formed a discrete sub-cluster. But there is no detectable geographic pattern in the distribution of C. glaucoma ribotypes, for example, sequences originating from Argentina, Peru, Japan, Morocco, Russia and Ukraine were identical, as were those from Denmark and Australia. The significance of these results will be discussed; do the rDNA sequence clusters represent cosmopolitan ecotypes?

Published

2006

28. Multiple cosmopolitan ecotypes within a microbial eukaryote morphospecies

Author

Finlay, Bland J., Esteban, Genoveva F., Brown, Susan, Fenchel, Tom, Hoef-Emden, Kerstin, Finlay, Bland J., Esteban, Genoveva F., Brown, Susan, Fenchel, Tom, and Hoef-Emden, Kerstin

Abstract

Microbial eukaryotes that are morphologically indistinguishable (i.e. ‘morphospecies’) tend to be genetically diverse. While most protist morphospecies have cosmopolitan distribution, it has been suggested that ribotypes (unique rRNA gene sequences) or rRNA sequence clusters do have biogeography and such clusters may correlate with particular (non-morphological) adaptations. We have studied this in the ciliated protozoan morphospecies Cyclidium glaucoma. Fifty-four isolates collected worldwide represented 31 distinct ribotypes. There was no evidence of biogeographic distribution patterns. For example, identical ribotypes occurred in samples from Argentina, Peru, Morocco, Russia and Ukraine; in samples from Denmark and Australia; and in samples from Great Salt Lake and hyperhaline ponds in Spain. The morphospecies Cyclidium glaucoma is euryhaline and occurs in freshwater, brackish water, seawater, and hyperhaline waters. Evidence suggests that one ribotype cluster occurs only in marine or brackish habitats, and another one has so far been found only in hyperhaline habitats. Two clades seem to occur only in freshwater, but one clade includes ribotypes that were found in freshwater as well as in brackish water.

Published

2006

29. Soil protozoa - An intensive study of population dynamics and community structure in an upland grassland

Author

Esteban, Genoveva F., Clarke, K. J., Olmo, J. L., Finlay, Bland J., Esteban, Genoveva F., Clarke, K. J., Olmo, J. L., and Finlay, Bland J.

Abstract

We focus on the key results from a 3-year intensive investigation of soil protozoan diversity sponsored by the Natural Environment Research Council (UK). The investigation enabled us to study simultaneously all major protozoan groups at a single site—the 1 ha area of upland grassland at the Macaulay Land Use Research Institute's Sourhope Research Station in Southern Scotland. A total of 365 protozoan species were recorded, in four broad taxonomic groups—ciliates, testate amoebae, naked amoebae and flagellates. We explored the natural history of these groups, recording species richness, growth rates, and absolute abundance, as well as community structures within the context of the fractal character of the soil. We developed methods for estimating the abundance and growth potential of the soil protozoan community, plus seasonal variation in protozoan abundance within taxonomic groups. We isolated new species, re-described others, and produced a guide to the identification of testate amoebae in soil. We produced evidence for the ubiquitous random dispersal of soil protozoa, and we found no evidence for geographically restricted distributions at spatial scales ranging from 4 m2 to global. Roughly one quarter of global free-living protozoan diversity was recorded from this 1 ha site. Local and global abundances were correlated—i.e. species that are locally rare tend to be globally rare, and those that are locally abundant tend to be globally abundant

Published

2006

30. The roles of exaptation, gene loss and gene transfer in the evolution of ciliate hydrogenosomes

Author

Lewis, William H, Lind, Anders E, Kacper, Sendra M, Onsbring Gustafson, Henning, Williams, Tom A, Esteban, Genoveva F, Hirt, Robert P, Ettema, Thijs JG, Embley, Martin T, Lewis, William H, Lind, Anders E, Kacper, Sendra M, Onsbring Gustafson, Henning, Williams, Tom A, Esteban, Genoveva F, Hirt, Robert P, Ettema, Thijs JG, and Embley, Martin T

31. First record of Colpodidium caudatum (Ciliophora, Colpodidiidae) in Europe.

Author

Rodero Madrid, J., Olmo, José Luis, Esteban, Genoveva F, Rodero Madrid, J., Olmo, José Luis, and Esteban, Genoveva F

Abstract

The present study documents the discovery of the first European population of Colpodidium caudatum (Ciliophora, Colpodidiidae) in a water drain in a school playground in Manzanares (Ciudad Real, Spain). This species has been documented on every continent except Antarctica and Europe, until now. The ciliate was isolated from wet run-off soil collected from the water drain and was grown in semi-permanent cultures in the laboratory. The infraciliature of the ciliate was revealed using silver carbonate impregnation and cell measurements were taken from living and silver-impregnated specimens. A comparative analysis of published data from various populations of C. caudatum across the globe showed high intraspecific morphological variability in this species. To differentiate between species within the Colpodidium genus, a dichotomous key is presented. This investigation shows that C. caudatum is a ciliate that is found all over the world and is particularly associated with terrestrial habitats that are periodically flooded.

32. Introduction to the Special Issue: Bland J. Finlay: Uncovering the Unseen World of Microbes.

Author

Esteban, Genoveva F, Maberly, Stephen C, Esteban, Genoveva F, and Maberly, Stephen C

33. The ‘unseen’ microbial diversity of a Spanish solution lake: ecological and other implications

Author

Camacho, A., Vicente, E., Soria, J. M., Dumont, H., Sarma, S. S. S., Esteban, Genoveva F., Clarke, K. J., Miracle, M. R., Finlay, B. J., Camacho, A., Vicente, E., Soria, J. M., Dumont, H., Sarma, S. S. S., Esteban, Genoveva F., Clarke, K. J., Miracle, M. R., and Finlay, B. J.

Abstract

The ‘unseen’ microbial diversity of a small solution lake in central Spain is investigated using electron microscopy. The water has an elevated concentration of dissolved sulphate that supports significant abundance of sulphate reducing bacteria. Water samples were collected from the 13m stratum, fixed in situ and prepared for posterior electron microscopy examination. The results show high diversity of prokaryotes and microbial associations, particularly predatory bacteria, thriving in the anoxic layers of the water body. This high abundance and biodiversity, including multi-infestation of individual cells, increase the number of lateral links in the otherwise impoverished anaerobic food chain. The wider potential applications of predatory bacteria are discussed.

34. The Extraordinarily Rare Ciliate Legendrea loyezae Fauré-Fremiet, 1908 (Haptoria, Ciliophora)

Author

Weiss, J., Andreou, Demetra, Esteban, Genoveva F., Weiss, J., Andreou, Demetra, and Esteban, Genoveva F.

Abstract

Diverse and dynamic communities of ciliates and other microbes thrive in the natural environment, driving the functioning of aquatic ecosystems. Many microbes are present in very low numbers or are dormant in the ‘seedbank’, escaping detection in environmental surveys and, consequently, remaining underexplored. Here, we report an extraordinarily rare ciliate that was discovered after persistent exploration of freshwater anoxic sediments - Legendrea loyezae Fauré-Fremiet, 1908, a member of the Family Spathidiidae, Order Haptorida. In this study, we present the sixth account of the ciliate since 1908 and reveal its phylogenetic position with the first 18S rRNA data for the genus. We explain the key morphological features of the species, describing a remarkable behaviour in which the ciliate “shapeshifts'' due to its ability of controlled full extension and retraction of its tube-like tentacles. Our results shed light on the similarity of L. loyezae to another ciliate that was first described as Legendrea bellerophon, later moved under a new genus and named Thysanomorpha bellerophon. We question the validity of this taxonomic decision and, based on morphological characters and tentacle movement, we propose moving T. bellerophon back under Legendrea. This study demonstrates how continued and persistent exploration of natural habitats lead to the discovery of microbial communities and species.

35. A Case Building Ciliate in the Genus Pseudoblepharisma Found in Subtropical Fresh Water

Author

Hines, H.N., McCarthy, P.J., Esteban, Genoveva F., Hines, H.N., McCarthy, P.J., and Esteban, Genoveva F.

Abstract

The genus Pseudoblepharisma is currently comprised of only one species, P. tenue, and one variant, P. tenue var. viride, both described as free‐living ciliates thriving in oxygen depleted freshwater habitats of Europe. Here we report on this genus being discovered from subtropical freshwa-ters of Florida, USA. The Florida strain diverges from the P. tenue by being much larger, as well as having a far higher density of intracellular symbiotic green algae, resembling P. tenue var. viride. Unlike its European counterparts, the North American strain was observed to build a lorica, likely useful for protection and feeding; this has not been previously described for this genus. In contrast to P. tenue, the Florida strain does not have endosymbiotic purple bacteria. Despite large distances between sampling zones, the species is a close match at a morphological level to Pseudoblepharisma tenue var. viride. We provide the first 18S rRNA gene sequence for this species, allowing future in-vestigations into the biogeography of this genus. As intensive sampling efforts continue to increase, cryptic microbial species will continue to be recorded from diverse freshwater habitats at a global scale.