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4. Relación del virus de Epstein-Barr con distintas enfermedades

Author

Sánchez-Porro Álvarez, Cristina, Durán Viseras, Ana, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Galán Sánchez, Agustina, Sánchez-Porro Álvarez, Cristina, Durán Viseras, Ana, Universidad de Sevilla. Departamento de Microbiología y Parasitología, and Galán Sánchez, Agustina

Abstract

El virus de Epstein Barr (VEB), también conocido como herpesvirus humano tipo 4, es el microorganismo responsable de la mononucleosis infecciosa (MI). Aproximadamente más del 90% de la población mundial está infectada por VEB, siendo los niños y los adolescentes los grupos más vulnerables. Se propaga principalmente por contacto directo con la saliva por lo que la infección es conocida comúnmente como la “enfermedad del beso”. Tras la primoinfección, el virus permanece latente de por vida en los linfocitos B memoria expresando distintos tipos de proteínas latentes: antígenos nucleares de VEB (EBNA1, EBNA2, EBNA3A, 3B, 3C y LP); proteínas de membrana latentes (LMP1, 2A, 2B); ARN codificado por VEB (EBER1 y EBER2) y microARN (BARF1, BARF0 y BART). La expresión de dichas proteínas virales se relaciona con el desarrollo de diferentes patologías asociadas a VEB. El VEB se descubrió por primera vez hace ya casi 60 años y se considera el primer virus identificado vinculado con tumores humanos entre los que se encuentran el linfoma de Burkitt, la enfermedad de Hodgkin, carcinoma nasofaríngeo, cáncer gástrico o cáncer de mama. También se han reportado casos de manifestaciones oculares relacionadas con la infección por VEB y recientemente se ha observado la implicación del virus con el desarrollo de enfermedades autoinmunes como son la esclerosis múltiple o el lupus eritematoso sistémico. El VEB es un virus muy ubicuo implicado en multitud de patologías siendo la vacunación la mejor estrategia para prevenir la infección y posibles complicaciones. Sin embargo, actualmente no existe ninguna vacuna autorizada, aunque las investigaciones están más próximas de desarrollar una vacuna segura y eficaz.

Published
2023

5. Genomic-based phylogenetic and metabolic analyses of the genus Natronomonas, and description of Natronomonas aquatica sp. nov.

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Ciencia e Innovación (MICIN). España, Junta de Andalucía, García Roldán, Alicia, Durán Viseras, Ana, Ruiz de la Haba, Rafael, Corral, Paulina, Sánchez-Porro Álvarez, Cristina, Ventosa Ucero, Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Ciencia e Innovación (MICIN). España, Junta de Andalucía, García Roldán, Alicia, Durán Viseras, Ana, Ruiz de la Haba, Rafael, Corral, Paulina, Sánchez-Porro Álvarez, Cristina, and Ventosa Ucero, Antonio

Abstract

The genus Natronomonas is classified on the family Haloarculaceae, within the class Halobacteria and currently includes six species isolated from salterns, saline or soda lakes, and salt mines. All are extremely halophilic (optimal growth at 20–25% [w/v] NaCl) and neutrophilic, except Natronomonas pharaonis, the type species of the genus, that is haloalkaliphilic (showing optimal growth at pH 9.0) and possesses distinct phenotypic features, such as a different polar lipid profile than the rest of species of the genus. We have carried out a genome-based study in order to determine the phylogenetic structure of the genus Natronomonas and elucidate its current taxonomic status. Overall genomic relatedness indexes, i.e., OrthoANI (Average Nucleotide Identity), dDDH (digital DNA–DNA hybridization), and AAI (Average Amino acid Identity), were determined with respect to the species of Natronomonas and other representative taxa of the class Halobacteria. Our data show that the six species of Natronomonas constitute a coherent cluster at the genus level. Besides, we have characterized a new haloarchaeon, strain F2-12T , isolated from the brine of a pond of a saltern in Isla Cristina, Huelva, Spain, and we determined that it constitutes a new species of Natronomonas, for which we propose the name Natronomonas aquatica sp. nov. Besides, the metabolic analysis revealed a heterotrophic lifestyle and a versatile nitrogen metabolism for members of this genus. Finally, metagenomic fragment recruitments from a subset of hypersaline habitats, indicated that the species of Natronomonas are widely distributed in saline lakes and salterns as well as on saline soils. Species of this haloarchaeal genus can be considered as ubiquitous in intermediate to high salinity habitats.

Published
2023

6. Discovery of the Streamlined Haloarchaeon Halorutilus salinus, Comprising a New Order Widespread in Hypersaline Environments across the World

Author

European Commission, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Junta de Andalucía, National Science Foundation (US), Ministerio de Universidades (España), Durán-Viseras, Ana, Sánchez-Porro, Cristina, Viver, Tomeu, Konstantinidis, Konstantinos T., Ventosa, Antonio, European Commission, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Junta de Andalucía, National Science Foundation (US), Ministerio de Universidades (España), Durán-Viseras, Ana, Sánchez-Porro, Cristina, Viver, Tomeu, Konstantinidis, Konstantinos T., and Ventosa, Antonio

Abstract

The class Halobacteria is one of the most diverse groups within the Euryarchaeota phylum, whose members are ubiquitously distributed in hypersaline environments, where they often constitute the major population. Here, we report the discovery and isolation of a new halophilic archaeon, strain F3-133T exhibiting ≤86.3% 16S rRNA gene identity to any previously cultivated archaeon, and, thus, representing a new order. Analysis of available 16S rRNA gene amplicon and metagenomic data sets showed that the new isolate represents an abundant group in intermediate-to-high salinity ecosystems and is widely distributed across the world. The isolate presents a streamlined genome, which probably accounts for its ecological success in nature and its fastidious growth in culture. The predominant osmoprotection mechanism appears to be the typical salt-in strategy used by other haloarchaea. Furthermore, the genome contains the complete gene set for nucleotide monophosphate degradation pathway through archaeal RuBisCO, being within the first halophilic archaea representatives reported to code this enzyme. Genomic comparisons with previously described representatives of the phylum Euryarchaeota were consistent with the 16S rRNA gene data in supporting that our isolate represents a novel order within the class Halobacteria for which we propose the names Halorutilales ord. nov., Halorutilaceae fam. nov., Halorutilus gen. nov. and Halorutilus salinus sp. nov. IMPORTANCE The discovery of the new halophilic archaeon, Halorutilus salinus, representing a novel order, family, genus, and species within the class Halobacteria and phylum Euryarchaeota clearly enables insights into the microbial dark matter, expanding the current taxonomical knowledge of this group of archaea. The in-depth comparative genomic analysis performed on this new taxon revealed one of the first known examples of an Halobacteria representative coding the archaeal RuBisCO gene and with a streamlined genome, being ecologic

Published
2023

7. Discovery of the streamlined haloarchaeon Halorutilus salinus, comprising a new order widespread in hypersaline environments across the world

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Universidad de Sevilla. BIO213: Estudio de Microorganismos Halófilos, Ministerio de Ciencia e Innovación (MICIN). España, Agencia Estatal de Investigación. España, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, Viver, Tomeus, Konstantinidis, Konstantinos T., Ventosa Ucero, Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Universidad de Sevilla. BIO213: Estudio de Microorganismos Halófilos, Ministerio de Ciencia e Innovación (MICIN). España, Agencia Estatal de Investigación. España, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, Viver, Tomeus, Konstantinidis, Konstantinos T., and Ventosa Ucero, Antonio

Abstract

The class Halobacteria is one of the most diverse groups within the Euryarchaeota phylum, whose members are ubiquitously distributed in hypersaline environments, where they often constitute the major population. Here, we report the discovery and isolation of a new halophilic archaeon, strain F3-133T exhibiting ≤86.3% 16S rRNA gene identity to any previously cultivated archaeon, and, thus, representing a new order. Analysis of available 16S rRNA gene amplicon and metagenomic data sets showed that the new isolate represents an abundant group in intermediate-to-high salinity ecosystems and is widely distributed across the world. The isolate presents a streamlined genome, which probably accounts for its ecological success in nature and its fastidious growth in culture. The predominant osmoprotection mechanism appears to be the typical salt-in strategy used by other haloarchaea. Furthermore, the genome contains the complete gene set for nucleotide monophosphate degradation pathway through archaeal RuBisCO, being within the first halophilic archaea representatives reported to code this enzyme. Genomic comparisons with previously described representatives of the phylum Euryarchaeota were consistent with the 16S rRNA gene data in supporting that our isolate represents a novel order within the class Halobacteria for which we propose the names Halorutilales ord. nov., Halorutilaceae fam. nov., Halorutilus gen. nov. and Halorutilus salinus sp. nov. IMPORTANCE The discovery of the new halophilic archaeon, Halorutilus salinus, representing a novel order, family, genus, and species within the class Halobacteria and phylum Euryarchaeota clearly enables insights into the microbial dark matter, expanding the current taxonomical knowledge of this group of archaea. The in-depth comparative genomic analysis performed on this new taxon revealed one of the first known examples of an Halobacteria representative coding the archaeal RuBisCO gene and with a streamlined genome, being ecologic

Published
2023

10. Halosegnis

Author

Durán‐Viseras, Ana, primary, Sánchez‐Porro, Cristina, additional, and Ventosa, Antonio, additional

Published
2022
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11. Pusillimonas

Author

Durán‐Viseras, Ana, primary, Manaia, Célia M., additional, Vaz‐Moreira, Ivone, additional, and Nunes, Olga C., additional

Published
2022
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12. Haloglomus

Author

Ventosa, Antonio, primary, Durán‐Viseras, Ana, additional, and Sánchez‐Porro, Cristina, additional

Published
2021
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15. Paludibacterium

Author

Durán‐Viseras, Ana, primary, Manaia, Célia M., additional, Vaz‐Moreira, Ivone, additional, and Nunes, Olga C., additional

Published
2021
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16. Superando los límites del cultivo: taxogenómica y genómica comparativa de nuevas haloarqueas

Author

Durán Viseras, Ana, Ventosa Ucero, Antonio, Sánchez-Porro Álvarez, Cristina, and Universidad de Sevilla. Departamento de Microbiología y Parasitología

Abstract

El estudio se ha centrado en la caracterización, mediante técnicas dependientes de cultivo, de las comunidades microbianas de diferentes ambientes hipersalinos localizados en la provincia de Huelva (salinas de Isla Cristina e Isla Bacuta y suelos hipersalinos de las Marismas del Odiel). El principal objetivo ha sido el aislamiento de nuevas arqueas y bacterias halófilas a partir de estos ambientes, que a su vez, pudieran representar una fracción importante de la microbiota halófila que allí habita. También hemos realizado la descripción de estos nuevos grupos aislados que representan nuevos taxones y estudios genómicos comparativos de algunos de los grupos caracterizados de mayor interés. Del total de cepas aisladas y en base a la secuenciación parcial del gen ARNr 16S se seleccionaron aquellas cuyos porcentajes de semejanza eran inferiores al 97-98 % o al 95 %, ante la posibilidad de que pudieran constituir nuevas especies o incluso nuevos géneros microbianos, respectivamente. Estos grupos han sido objeto de estudio en esta Tesis Doctoral mediante la realización de un análisis taxogenómico, que engloba la metodología clásicamente empleada para la descripción de especies procariotas (determinación de las características filogenéticas, genotípicas, fenotípicas y quimiotaxonómicas), así como el análisis bioinformático de los genomas de estos nuevos taxones a describir (determinación de su posición filogenómica y el cálculo de los parámetros genómicos: ANI, AAI e in silico DDH), tal y como requiere la actual taxonomía de procariotas. Dicho estudio ha permitido la descripción de dos nuevos géneros de haloarqueas, pertenecientes a los órdenes Halobacteriales y Haloferacales, Haloglomus gen. nov. y Halosegnis gen. nov., respectivamente, así como, ocho nuevas especies designadas como Halorientalis pallida sp. nov., Natronomonas salsuginis sp. nov., Haloglomus irregulare sp. nov., Halosegnis longus sp. nov., Halosegnis rubeus sp. nov., Halonotius aquaticus sp. nov., Halonotius terrestris sp. nov. y Halonotius roseus sp. nov. Con el propósito de comprobar si estos grupos eran realmente abundantes en los ambientes hipersalinos estudiados y para adquirir un conocimiento más detallado sobre su organización genómica, fisiología y metabolismo, realizamos estudios de ecología microbiana y de genómica comparativa de aquellos grupos descritos de especial interés. Los estudios ecológicos sobre los nuevos géneros Haloglomus, Halosegnis y Halonotius, han puesto de manifiesto que los representantes de estos géneros constituyen una proporción importante de la población microbiana en estos ambientes, especialmente a salinidades intermedias y altas, y que además, se encuentran ampliamente distribuidos geográficamente. Por otro lado, durante el estudio genómico detallado de las cepas que conforman el nuevo género Halosegnis, se ha identificado el conjunto de genes codificantes de la ruta completa de síntesis del ácido ɣ-aminobutírico (GABA), sugiriendo así su posible potencial biotecnológico, una estrategia de osmoadaptación de tipo salt-in y la presencia de rodopsinas. Mientras que la reconstrucción metabólica de los genomas del género Halonotius ha revelado la presencia de la ruta completa de síntesis de cobalamina (vitamina B12), hecho que junto a la amplía distribución global de este género y a su abundancia en ambientes hipersalinos, sugiere que desempeñen un papel esencial en las comunidades microbianas de estos ambientes a las que les proporcionan productos metabólicamente costosos. Los resultados obtenidos en esta Tesis Doctoral confirman que tal y como nos habíamos propuesto inicialmente, se han conseguido aislar varios grupos de microorganismos abundantes en los ambientes hipersalinos hasta la fecha desconocidos. Así como, nos ha permitido obtener una visión más detallada de su organización genómica, requisito indispensable para entender cómo se comportan estos microorganismos en su ambiente natural. Premio Extraordinario de Doctorado US

Published
2020

17. Genomic Insights Into New Species of the Genus Halomicroarcula Reveals Potential for New Osmoadaptative Strategies in Halophilic Archaea

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Junta de Andalucía, Ministerio de Ciencia e Innovación (MICIN). España, Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, Ventosa Ucero, Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Junta de Andalucía, Ministerio de Ciencia e Innovación (MICIN). España, Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, and Ventosa Ucero, Antonio

Abstract

Metagenomic studies on prokaryotic diversity of hypersaline soils from the Odiel saltmarshes, South-west Spain, revealed a high proportion of genomic sequences not related to previously cultivated taxa, that might be related to haloarchaea with a high environmental and nutritional flexibility. In this study, we used a culturomics approach in order to isolate new haloarchaeal microorganisms from these hypersaline soils. Four haloarchaeal strains, designated strains F24AT, F28, F27T, and F13T, phylogenetically related to the genus Halomicroarcula, were isolated and characterized in detail. The phylogenomic tree based on the 100 orthologous single-copy genes present in the genomes of these four strains as well as those of the type strains of the species Halomicroarcula pellucida CECT 7537T, Halomicroarcula salina JCM 18369T and Halomicroarcula limicola JCM 18640T, that were determined in this study, revealed that these four new isolates clustered on three groups, with strains F24AT and F28 within a single cluster, and altogether with the species of Halomicroarcula. Additionally, Orthologous Average Nucleotide Identity (OrthoANI), digital DNA-DNA hybridization (dDDH) and Average Amino-acid Identity (AAI) values, likewise phenotypic characteristics, including their polar lipids profiles, permitted to determine that they represent three new species, for which we propose the names Halomicroarcula rubra sp. nov. (type strain F13T), Halomicroarcula nitratireducens sp. nov. (type strain F27T) and Halomicroarcula salinisoli sp. nov. (type strain F24AT). An in deep comparative genomic analysis of species of the genus Halomicroarcula, including their metabolism, their capability to biosynthesize secondary metabolites and their osmoregulatory adaptation mechanisms was carried out. Although they use a salt-in strategy, the identification of the complete pathways for the biosynthesis of the compatible solutes trehalose and glycine betaine, not identified before in any other haloarc

Published
2021

21. Superando los límites del cultivo: taxogenómica y genómica comparativa de nuevas haloarqueas

Author

Ventosa Ucero, Antonio, Sánchez-Porro Álvarez, Cristina, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Durán Viseras, Ana, Ventosa Ucero, Antonio, Sánchez-Porro Álvarez, Cristina, Universidad de Sevilla. Departamento de Microbiología y Parasitología, and Durán Viseras, Ana

Abstract

El estudio se ha centrado en la caracterización, mediante técnicas dependientes de cultivo, de las comunidades microbianas de diferentes ambientes hipersalinos localizados en la provincia de Huelva (salinas de Isla Cristina e Isla Bacuta y suelos hipersalinos de las Marismas del Odiel). El principal objetivo ha sido el aislamiento de nuevas arqueas y bacterias halófilas a partir de estos ambientes, que a su vez, pudieran representar una fracción importante de la microbiota halófila que allí habita. También hemos realizado la descripción de estos nuevos grupos aislados que representan nuevos taxones y estudios genómicos comparativos de algunos de los grupos caracterizados de mayor interés. Del total de cepas aisladas y en base a la secuenciación parcial del gen ARNr 16S se seleccionaron aquellas cuyos porcentajes de semejanza eran inferiores al 97-98 % o al 95 %, ante la posibilidad de que pudieran constituir nuevas especies o incluso nuevos géneros microbianos, respectivamente. Estos grupos han sido objeto de estudio en esta Tesis Doctoral mediante la realización de un análisis taxogenómico, que engloba la metodología clásicamente empleada para la descripción de especies procariotas (determinación de las características filogenéticas, genotípicas, fenotípicas y quimiotaxonómicas), así como el análisis bioinformático de los genomas de estos nuevos taxones a describir (determinación de su posición filogenómica y el cálculo de los parámetros genómicos: ANI, AAI e in silico DDH), tal y como requiere la actual taxonomía de procariotas. Dicho estudio ha permitido la descripción de dos nuevos géneros de haloarqueas, pertenecientes a los órdenes Halobacteriales y Haloferacales, Haloglomus gen. nov. y Halosegnis gen. nov., respectivamente, así como, ocho nuevas especies designadas como Halorientalis pallida sp. nov., Natronomonas salsuginis sp. nov., Haloglomus irregulare sp. nov., Halosegnis longus sp. nov., Halosegnis rubeus sp. nov., Halonotius aquaticus sp. nov., Halonot

Published
2020

22. Haloglomus irregulare gen. nov., sp. nov., a New Halophilic Archaeon Isolated from a Marine Saltern

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, Ventosa Ucero, Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, and Ventosa Ucero, Antonio

Abstract

A halophilic archaeal strain, designated F16-60T, was isolated from Isla Cristina marine saltern in Huelva, Spain. Cells were pleomorphic, irregular, non-motile, and Gram-stain-negative. It produced red-pigmented colonies on agar plates. Strain F16-60T was extremely halophilic (optimum at 30% (w/v) NaCl) and neutrophilic (optimum pH 7.5). Phylogenetic tree reconstructions based on 16S rRNA and rpoB´ gene sequences revealed that strain F16-60T was distinct from species of the related genera Natronomonas, Halomarina, and Halomicrobium, of the order Halobacteriales. The polar lipids are phosphatidylglycerol (PG), phosphatidylglycerol phosphate methyl ester (PGP-Me), phosphatidylglycerol sulfate (PGS), and one glycolipid chromatographically identical to sulfated mannosyl glucosyl diether (S-DGD-1). The DNA G+C content is 68.0 mol%. The taxonomic study, based on a combination of phylogenetic, genomic, chemotaxonomic, and phenotypic analyses, suggest that strain F16-60T (= CECT 9635T = JCM 33318T), represents a novel species of a new genus within the family Haloarculaceae and the order Halobacteriales, for which the name Haloglomus irregulare gen. nov., sp. nov. is proposed. Metagenomic fragment recruitment analysis revealed the worldwide distribution of members of this genus and suggested the existence of other closely related species to be isolated.

Published
2020

23. Natronomonas salsuginis sp. nov., a New Inhabitant of a Marine Solar Saltern

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Economía y Competitividad (MINECO). España, Junta de Andalucía, Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, Ventosa Ucero, Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Economía y Competitividad (MINECO). España, Junta de Andalucía, Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, and Ventosa Ucero, Antonio

Abstract

A halophilic archaeon, strain F20-122T, was isolated from a marine saltern of Isla Bacuta (Huelva, Spain). Cells were Gram-stain-negative, aerobic, and coccoid in morphology. It grew at 25-50 °C (optimum 37 °C), pH 6.5-9.0 (optimum pH 8.0), and 10-30% (w/v) total salts (optimum 25% salts). The phylogenetic analyses based on the 16S rRNA and rpoB' genes showed its affiliation with the genus Natronomonas and suggested its placement as a new species within this genus. The in silico DNA-DNA hybridization (DDH) and average nucleotide identity (ANI) analyses of this strain against closely related species supported its placement in a new taxon. The DNA G + C content of this isolate was 63.0 mol%. The polar lipids of strain F20-122T were phosphatidylglycerol phosphate methyl ester (PGP-Me), phosphatidylglycerol (PG), and phosphatidylglycerol sulfate (PGS). Traces of biphosphatidylglycerol (BPG) and other minor phospholipids and unidentified glycolipids were also present. Based on the phylogenetic, genomic, phenotypic, and chemotaxonomic characterization, we propose strain F20-122T (= CCM 8891T = CECT 9564T = JCM 33320T) as the type strain of a new species within the genus Natronomonas, with the name Natronomonas salsuginis sp. nov. Rhodopsin-like sequence analysis of strain F20-122T revealed the presence of haloarchaeal proton pumps, suggesting a lightmediated ATP synthesis for this strain and a maximum wavelength absorption in the green spectrum.

Published
2020

27. Culturomics‐based genomics sheds light on the ecology of the new haloarchaeal genus Halosegnis.

Author

Durán‐Viseras, Ana, Andrei, Adrian‐Ştefan, Vera‐Gargallo, Blanca, Ghai, Rohit, Sánchez‐Porro, Cristina, and Ventosa, Antonio

Subjects
*AXENIC cultures, *GENOMICS, *MICROBIAL diversity, *MICROBIAL ecology, *RIBOSOMAL RNA, *HABITATS, *SPECIES
Abstract

Summary: The development of culture‐independent techniques has revolutionized our understanding of microbial ecology, especially through the illustration of the vast gap between the environmentally abundant microbial diversity and that accessible through cultivation. However, culture‐based approaches are not only crucial for understanding the evolutionary, metabolic and ecological milieu of microbial diversity but also for the development of novel biotechnological applications. In this study, we used a culturomics‐based approach in order to isolate novel microbial taxa from hypersaline environments (i.e. Isla Cristina and Isla Bacuta salterns in Huelva, Spain). We managed to obtain axenic cultures of four haloarchaeal strains that belong to a new haloarchaeal genus and to obtain their genomic sequences. The phylogenomic and phylogenetic analyses (together with AAI, ANI and digital DDH indices) showed that the isolates constitute two new species, for which we propose the names Halosegnis longus sp. nov. and Halosegnis rubeus sp. nov. The genomic‐based metabolic reconstructions indicated that members of this new haloarchaeal genus have photoheterotrophic aerobic lifestyle with a typical salt‐in signature. 16S rRNA gene sequence reads abundance profiles and genomic recruitment analyses revealed that the Halosegnis genus has a worldwide geographical distribution, reaching high abundance (up to 8%) in habitats with intermediate salinities. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Spatial distribution of prokaryotic communities in hypersaline soils

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Economia, Industria y Competitividad (MINECO). España, Junta de Andalucía, Vera Gargallo, Blanca, Roy Chowdhury, Taniya, Brown, Joseph, Fansler, Sarah J., Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, Ventosa Ucero, Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Economia, Industria y Competitividad (MINECO). España, Junta de Andalucía, Vera Gargallo, Blanca, Roy Chowdhury, Taniya, Brown, Joseph, Fansler, Sarah J., Durán Viseras, Ana, Sánchez-Porro Álvarez, Cristina, and Ventosa Ucero, Antonio

Abstract

Increasing salinization in wetland systems is a major threat to ecosystem services carried out by microbial communities. Thus, it is paramount to understand how salinity drives both microbial community structures and their diversity. Here we evaluated the structure and diversity of the prokaryotic communities from a range of highly saline soils (EC1:5 from 5.96 to 61.02 dS/m) from the Odiel Saltmarshes and determined their association with salinity and other soil physicochemical features by analyzing 16S rRNA gene amplicon data through minimum entropy decomposition (MED). We found that these soils harbored unique communities mainly composed of halophilic and halotolerant taxa from the phyla Euryarchaeota, Proteobacteria, Balneolaeota, Bacteroidetes and Rhodothermaeota. In the studied soils, several site-specific properties were correlated with community structure and individual abundances of particular sequence variants. Salinity had a secondary role in shaping prokaryotic communities in these highly saline samples since the dominant organisms residing in them were already well-adapted to a wide range of salinities. We also compared ESV-based results with OTU-clustering derived ones, showing that, in this dataset, no major differences in ecological outcomes were obtained by the employment of one or the other method.

Published
2019

29. New Halonotius Species Provide Genomics-Based Insights Into Cobalamin Synthesis in Haloarchaea

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ventosa Ucero, Antonio, Sánchez-Porro Álvarez, Cristina, Durán Viseras, Ana, Andrei, Adrian-Stefan, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ventosa Ucero, Antonio, Sánchez-Porro Álvarez, Cristina, Durán Viseras, Ana, and Andrei, Adrian-Stefan

Abstract

Hypersaline aquatic and terrestrial ecosystems display a cosmopolitan distribution. These environments teem with microbes and harbor a plethora of prokaryotic lineages that evaded ecological characterization due to the prior inability to cultivate them or to access their genomic information. In order to close the current knowledge gap, we performed two sampling and isolation campaigns in the saline soils of the Odiel Saltmarshes and the salterns of Isla Cristina (Huelva, Spain). From the isolated haloarchaeal strains subjected to high-throughput phylogenetic screening, two were chosen (F15BT and F9-27T) for physiological and genomic characterization due of their relatedness to the genus Halonotius. Comparative genomic analyses were carried out between the isolated strains and the genomes of previously described species Halonotius pteroides CECT 7525T, Halonotius aquaticus F13-13T and environmentaly recovered metagenome-assembled representatives of the genus Halonotius. The topology of the phylogenomic tree showed agreement with the phylogenetic ones based on 16S rRNA and rpoB′ genes, and together with average amino acid and nucleotide identities suggested the two strains as novel species within the genus. We propose the names Halonotius terrestris sp. nov. (type strain F15BT = CECT 9688T = CCM 8954T) and Halonotius roseus sp. nov. (type strain F9-27T = CECT 9745T = CCM 8956T) for these strains. Comparative genomic analyses within the genus highlighted a typical salt-in signature, characterized by acidic proteomes with low isoelectric points, and indicated heterotrophic aerobic lifestyles. Genome-scale metabolic reconstructions revealed that the newly proposed species encode all the necessary enzymatic reactions involved in cobalamin (vitamin B12) biosynthesis. Based on the worldwide distribution of the genus and its abundance in hypersaline habitats we postulate that its members perform a critical function by being able to provide “expensive” commodities (i.e., vita

Published
2019

30. Halorientalis pallida sp. nov., a new extremely halophilic archaeon isolated from a marine saltern in Spain.

Author

Sánchez-Porro, Cristina, Durán-Viseras, Ana, and Ventosa, Antonio

Subjects
RIBOSOMAL RNA, PHOSPHATE esters, METHYL formate, EXTREME environments, NUCLEOTIDE sequencing, RESEARCH teams
Abstract

Solar salterns are extreme environments in which salinity plays a very important role and influences their biodiversity. Our research group has been dedicated to the study of the inhabitants of these environments. Metagenomic studies have shown that many microorganisms that inhabit these environments have not been isolated in pure culture to date. Isolation of these new groups is the main objectives of our project We have a wide collection of isolates from solar salterns of Isla Cristina (Huelva, Spain). This work focuses on the taxonomic description of one of these isolates, strain F13-25. Strain F13-25 forms colonies with pink pigmentation. It presents an optimal growth at a concentration of 25% (w/v) NaCl, pH 7.5 and 37oC. Phylogenetic analyses based on 16S rRNA gene sequences revealed that strain F13-25 is a member of the genus Halorientalis. We have sequenced the genome of strain F13-25 and we have analyzed it by comparing it with the genomes of the type strains of the species of the genus. The results of the GGDC and ortoANI, ANIb and ANIm of strain F13-25 and its related species showed percentages below the accepted threshold value for the delineation of prokaryotic species. It contains phosphatidylglycerol, phosphatidylglyceryl phosphate methyl ester and a glycolipid chromatographically identical to diethyl diglycosyl diether. The G + C content of the DNA is 65.7 mol% (genome). The phylogenetic, genomic, chemotaxonomic and phenotypic analyses show that strain F13-25 represents a new species of the genus Halorientalis, for which we propose the name Halorientalis pallida sp. nov. [ABSTRACT FROM AUTHOR]

Published
2019

31. Halonotius species genome-scale metabolic reconstructions of new designated cobalamin synthesis as a Black Queen (BQ) function in haloarchaea.

Author

Durán-Viseras, Ana, Andrei, Adrian-Ştefan, Ghai, Rohit, Sánchez-Porro, Cristina, and Ventosa, Antonio

Subjects
VITAMIN B12, SOIL salinity, AMINO acid sequence, ISOELECTRIC point, SPECIES, BACTERIAL metabolism
Abstract

Hypersaline aquatic and terrestrial ecosystems display a cosmopolitan distribution. These environments teem with microbes and harbour a plethora of prokaryotic lineages that evaded ecological characterization due to the prior inability to cultivate them or to access their genomic information. In order to close the current knowledge gap, we performed two sampling and isolation campaigns in saline soils of the Odiel Saltmarshes and the salterns of Isla Cristina (Huelva, Spain). From the isolated haloarchaeal strains subjected to high-throughput phylogenetic screening, two were chosen (F9-27 and F15B) for physiological and genomic characterization because of their relatedness to the genus Halonotius. The topology of the phylogenomic tree based on 257 conserved protein sequences showed agreement with the phylogenetic ones based on 16S rRNA and rpoB' genes, and together with average amino acid and nucleotide identities designated the two strains as novel species within the genus. We propose the names Halonotius roseus sp. nov. and Halonotius terrestris sp. nov. for the newly described strains. Comparative genomic analyses within the genus highlighted a typical "salt-in" signature (characterised by acidic proteomes with low isoelectric points) and indicated heterotrophic aerobic lifestyles. Genome-scale metabolic reconstructions revealed that the newly proposed species, together with environmentally-recovered metagenome-assembled representatives, encode all the necessary enzymatic reactions involved in cobalamin (vitamin B12) biosynthesis. Based on the worldwide distribution of the genus and its high abundance in hypersaline habitats we postulate that its members perform a critical Black Queen function within the halophilic communities. [ABSTRACT FROM AUTHOR]

Published
2019

32. Hypersaline environments microbiome: soils versus salterns.

Author

Ventosa, Antonio, Vera-Gargallo, Blanca, León, Ma Jose, Durán-Viseras, Ana, de la Haba, Rafael R., and Sánchez-Porro, Cristina

Subjects
SOIL salinity, AQUATIC ecology, SOIL testing, ENVIRONMENTAL soil science, AQUATIC habitats
Abstract

Hypersaline environments comprise aquatic and terrestrial habitats. During recent years the prokaiyotic diversity and ecology of aquatic hypersaline environments has been addressed by metagenomic studies (Ventosa et al, 2015), In contrast, a limited number of studies on the microbial diversity of saline soils have been carried out, and they have been mainly focused on either Bacteria or Archaea. To improve our understanding of the prokaryotic community structure in saline soils, we studied recently the phylogenetic diversity and metabolic potential of the prokaryotic community of hypersaline soils from the Odiel saltmarshes (Spain) by metagenomics. Comparative analyses of these saline soils metagenomic databases with available metagenomic databases from salterns ponds allowed further identification of unique and shared traits of the prokaiyotic communities dwelling in these habitats. Saline soils harbored a more diverse prokaiyotic community and, in contrast to their aquatic counterparts, comprised sequences related to both known halophiles and taxa without known halophilic or halotolerant representatives, which reflects the physical heterogeneity of the soil matrix. The soils studied harbored unique communities mainly composed of halophilic taxa from the phyla Euryarchaeota, Proteobacteria, Balneolaeota, Bacteroidetes and Rhodothermaeota (Vera-Gargallo etal, 2018; 2019), [ABSTRACT FROM AUTHOR]

Published
2019

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