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1. Microdiversity in marine pelagic ammonia‐oxidizing archaeal populations in a Mediterranean long‐read metagenome.

Author

Suárez‐Moo, Pablo, Haro‐Moreno, Jose M., and Rodriguez‐Valera, Francisco

Subjects
PROKARYOTIC genomes, GENETIC variation, EUPHOTIC zone, GENOMES, METAGENOMICS, SHOTGUN sequencing, MICROORGANISM populations
Abstract

The knowledge of the different population‐level processes operating within a species, and the genetic variability of the individual prokaryotic genomes, is key to understanding the adaptability of microbial populations. Here, we characterized the flexible genome of ammonia‐oxidizing archaeal (AOA) populations using a metagenomic recruitment approach and long‐read (PacBio HiFi) metagenomic sequencing. In the lower photic zone of the western Mediterranean Sea (75 m deep), the genomes Nitrosopelagicus brevis CN25 and Nitrosopumilus catalinensis SPOT1 had the highest recruitment values among available complete AOA genomes. They were used to analyse the diversity of flexible genes (variable from strain to strain) by examining the long‐reads located within the flexible genomic islands (fGIs) identified by their under‐recruitment. Both AOA genomes had a large fGI involved in the glycosylation of exposed structures, highly variable, and rich in glycosyltransferases. N. brevis had two fGIs related to the transport of phosphorus and ammonium respectively. N. catalinensis had fGIs involved in phosphorus transportation and metal uptake. A fGI5 previously reported as 'unassigned function' in N. brevis could be associated with defense. These findings demonstrate that the microdiversity of marine microbe populations, including AOA, can be effectively characterized using an approach that incorporates third‐generation sequencing metagenomics. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Ecogenomics of the SAR11 clade

Author

Haro‐Moreno, Jose M., primary, Rodriguez‐Valera, Francisco, additional, Rosselli, Riccardo, additional, Martinez‐Hernandez, Francisco, additional, Roda‐Garcia, Juan J., additional, Gomez, Monica Lluesma, additional, Fornas, Oscar, additional, Martinez‐Garcia, Manuel, additional, and López‐Pérez, Mario, additional

Published
2019
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7. Ecogenomics of the SAR11 clade

Author

Jose M. Haro-Moreno, Francisco Rodriguez-Valera, Francisco Martinez-Hernandez, Juan J. Roda-Garcia, Riccardo Rosselli, Oscar Fornas, Mario López-Pérez, Manuel Martinez-Garcia, Monica Lluesma Gomez, Universidad de Alicante. Departamento de Fisiología, Genética y Microbiología, and Ecología Microbiana Molecular

Subjects
Oceans and Seas, Organophosphonates, Genomics, Biology, Microbiología, Microbiology, Genome, 03 medical and health sciences, Ecogenomics, Phylogenetics, Seawater, Clade, Ecology, Evolution, Behavior and Systematics, Phylogeny, Research Articles, 030304 developmental biology, 0303 health sciences, Genetic diversity, Hyphomicrobiaceae, 030306 microbiology, Mediterranean Region, Subclade, SAR11 clade, Evolutionary biology, Metagenomics, Purines, Cosmopolitan distribution, Metagenome, Water Microbiology, Genome, Bacterial, Research Article
Abstract

Members of the SAR11 clade, despite their high abundance, are often poorly represented by metagenome‐assembled genomes. This fact has hampered our knowledge about their ecology and genetic diversity. Here we examined 175 SAR11 genomes, including 47 new single‐amplified genomes. The presence of the first genomes associated with subclade IV suggests that, in the same way as subclade V, they might be outside the proposed Pelagibacterales order. An expanded phylogenomic classification together with patterns of metagenomic recruitment at a global scale have allowed us to define new ecogenomic units of classification (genomospecies), appearing at different, and sometimes restricted, metagenomic data sets. We detected greater microdiversity across the water column at a single location than in samples collected from similar depth across the global ocean, suggesting little influence of biogeography. In addition, pangenome analysis revealed that the flexible genome was essential to shape genomospecies distribution. In one genomospecies preferentially found within the Mediterranean, a set of genes involved in phosphonate utilization was detected. While another, with a more cosmopolitan distribution, was unique in having an aerobic purine degradation pathway. Together, these results provide a glimpse of the enormous genomic diversity within this clade at a finer resolution than the currently defined clades. This work was supported by grant ‘VIREVO’ CGL2016-76273-P [AEI/FEDER, EU] (cofounded with FEDER funds) from the Spanish Ministerio de Economía, Industria y Competitividad to FRV, and grants CGL2013-40564-R and SAF2013-49267-EXP from the Spanish Ministerio de Economía, Industria y Competitividad, grant ACIF/2015/332 from Generalitat Valenciana and grant 5334 from the Betty Moore Foundation to MMG. FRV was also a beneficiary of the 5top100-program of the Ministry for Science and Education of Russia. JHM was supported by a Ph.D. fellowship from the Spanish Ministerio de Economía y Competitividad (BES-2014-067828). MLP was supported by a postdoctoral fellowship from the Spanish Ministerio de Economía, Industria y Competitividad (IJCI-2017-34002).

Published
2019

19. Novel Caudovirales associated with Marine Group I Thaumarchaeota assembled from metagenomes

Author

Francisco Rodriguez-Valera, Jose M. Haro-Moreno, Mario López-Pérez, José R. de la Torre, Producción Vegetal y Microbiología, and Departamentos de la UMH::Producción Vegetal y Microbiología

Subjects
Archaeal Viruses, Thaumarchaeota, viruses, Population, Genome, Viral, Biology, Microbiology, Genome, 579 - Microbiología, 03 medical and health sciences, Caudovirales, Phylogenetics, education, Gene, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, education.field_of_study, 030306 microbiology, biology.organism_classification, Archaea, Metagenomics, Metagenome
Abstract

Marine Group I (MGI) Thaumarchaeota are some of the most abundant microorganisms in the deep ocean and responsible for much of the ammonia oxidation occurring in this environment. In this work, we present 35 sequences assembled from metagenomic samples of the first uncultivated Caudovirales viruses associated with Thaumarchaeota, which we designated marthavirus. Most of the sequences were obtained from cellular metagenomes confirming that they represent an important tool to study environmental viral communities due to cells retrieved while undergoing viral lysis. Metagenomic recruitment showed that this viral population is formed by very divergent entities with high intrapopulation homogeneity. However, metatranscriptomic analyses revealed the same differential expression profile with the capsid as major transcript, indicative of viruses during the lytic cycle. The cobalamine biosynthesis gene cobS, an auxiliary metabolic gene, was also highly expressed during the infection. These analyses expand our understanding of the global diversity of archaeal viruses Valencian Consellería de Educació, Investigació, Cultura i Esport. Grant Number: APOSTD/2016/051 Spanish Ministerio de Economía y Competitividad. Grant Number: BES‐2014‐067828 Generalitat Valenciana. Grant Number: PROMETEO II/2014/012 Spanish Ministerio de Economía, Industria y Competitividad. Grant Number: CGL2015‐71523‐REDC EDER funds. Grant Numbers: VIREVO’ CGL2016‐76273‐P [AEI/FEDER, EU], MEDIMAX’ BFPU2013‐48007‐P

Published
2018

20. Ecological and genomic features of two widespread freshwater picocyanobacteria

Author

Pedro J, Cabello-Yeves, Antonio, Picazo, Antonio, Camacho, Cristiana, Callieri, Riccardo, Rosselli, Juan J, Roda-Garcia, Felipe H, Coutinho, and Francisco, Rodriguez-Valera

Subjects
Synechococcus, Lakes, Ecology, Metagenome, Ice Cover, Genomics, Cyanobacteria, Ecosystem, Genome, Bacterial, Phylogeny
Abstract

We present two genomes of widespread freshwater picocyanobacteria isolated by extinction dilution from a Spanish oligotrophic reservoir. Based on microscopy and genomic properties, both picocyanobacteria were tentatively designated Synechococcus lacustris Tous, formerly described as a metagenome assembled genome (MAG) from the same habitat, and Cyanobium usitatum Tous, described here for the first time. Both strains were purified in unicyanobacterial cultures, and their genomes were sequenced. They are broadly distributed in freshwater systems; the first seems to be a specialist on temperate reservoirs (Tous, Amadorio, Dexter, Lake Lanier, Sparkling), and the second appears to also be abundant in cold environments including ice-covered lakes such as Lake Baikal, Lake Erie or the brackish Baltic Sea. Having complete genomes provided access to the flexible genome that does not assemble in MAGs. We found several genomic islands in both genomes, within which there were genes for nitrogen acquisition, transporters for a wide set of compounds and biosynthesis of phycobilisomes in both strains. Some of these regions of low coverage in metagenomes also included antimicrobial compounds, transposases and phage defence systems, including a novel type III CRISPR-Cas phage defence system that was only detected in Synechococcus lacustris Tous.

Published
2018

22. nir gene‐based co‐occurrence patterns reveal assembly mechanisms of soil denitrifiers in response to fire.

Author

Goberna, Marta, Donat, Santiago, Pérez‐Valera, Eduardo, Hallin, Sara, and Verdú, Miguel

Subjects
ECOLOGICAL disturbances, SOILS, NEAR infrared spectroscopy, REDUCTASES
Abstract

Summary: Denitrification causes nitrogen losses from terrestrial ecosystems. The magnitude of nitrogen loss depends on the prevalence of denitrifiers, which show ecological differences if they harbour nirS or nirK genes encoding nitrite reductases with the same biological function. Thus, it is relevant to understand the mechanisms of co‐existence of denitrifiers, including their response to environmental filters and competition due to niche similarities. We propose a framework to analyse the co‐existence of denitrifiers across multiple assemblages by using nir gene‐based co‐occurrence networks. We applied it in Mediterranean soils before and during 1 year after an experimental fire. Burning did not modify nir community structure, but significantly impacted co‐occurrence patterns. Bacteria with the same nir co‐occurred in space, and those with different nir excluded each other, reflecting niche requirements: nirS abundance responded to nitrate and salinity, whereas nirK to iron content. Prior to fire, mutual exclusion between bacteria with the same nir suggested competition due to niche similarities. Burning provoked an immediate rise in mineral nitrogen and erased the signals of competition, which emerged again within days as nir abundances peaked. nir co‐occurrence patterns can help infer the assembly mechanisms of denitrifying communities, which control nitrogen losses in the face of ecological disturbance. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Ecogenomics of the SAR11 clade.

Author

Haro‐Moreno, Jose M., Rodriguez‐Valera, Francisco, Rosselli, Riccardo, Martinez‐Hernandez, Francisco, Roda‐Garcia, Juan J., Gomez, Monica Lluesma, Fornas, Oscar, Martinez‐Garcia, Manuel, and López‐Pérez, Mario

Subjects
*GENOMES, *ECOLOGY, *BIOGEOGRAPHY, *GENES, *OCEAN, *MARINE biodiversity
Abstract

Summary: Members of the SAR11 clade, despite their high abundance, are often poorly represented by metagenome‐assembled genomes. This fact has hampered our knowledge about their ecology and genetic diversity. Here we examined 175 SAR11 genomes, including 47 new single‐amplified genomes. The presence of the first genomes associated with subclade IV suggests that, in the same way as subclade V, they might be outside the proposed Pelagibacterales order. An expanded phylogenomic classification together with patterns of metagenomic recruitment at a global scale have allowed us to define new ecogenomic units of classification (genomospecies), appearing at different, and sometimes restricted, metagenomic data sets. We detected greater microdiversity across the water column at a single location than in samples collected from similar depth across the global ocean, suggesting little influence of biogeography. In addition, pangenome analysis revealed that the flexible genome was essential to shape genomospecies distribution. In one genomospecies preferentially found within the Mediterranean, a set of genes involved in phosphonate utilization was detected. While another, with a more cosmopolitan distribution, was unique in having an aerobic purine degradation pathway. Together, these results provide a glimpse of the enormous genomic diversity within this clade at a finer resolution than the currently defined clades. [ABSTRACT FROM AUTHOR]

Published
2020
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25. Comparative analysis of genome fragments of Acidobacteria from deep Mediterranean plankton

Author

David Moreira, Purificación López-García, Yvan Zivanovic, Matthew R. Henn, Francisco Rodriguez-Valera, and Achim Quaiser

Subjects
Fosmid, Metagenomics, Phylum, Ecology, Biology, Plankton, biology.organism_classification, Microbiology, Relative species abundance, Ecology, Evolution, Behavior and Systematics, Bathyal zone, Synteny, Acidobacteria
Abstract

Summary Acidobacteria constitute a still poorly studied phylum that is well represented in soils. Recent studies suggest that members of this phylum may be also abundant in deep-sea plankton, but their relative abundance and ecological role in this ecosystem are completely unknown. A recent screening of three metagenomic deep-sea libraries of bathypelagic plankton from the South Atlantic (1000 m depth), the Adriatic (1000 m depth) and the Ionian (3000 m depth) seas in the Mediterranean revealed an unexpected relative proportion of acidobacterial fosmids, which affiliated to the Solibacterales (Group 3), to the Group 11 and, most frequently, to the Group 6 of this diverse phylum. Here, we present the comparative analysis of 11 acidobacterial genome fragments containing the rrn operon from these Mediterranean libraries. A highly conserved syntenic region spanning up to 30 kb and containing up to 25 open reading frames was shared by Group 6 Acidobacteria. Synteny was also partially conserved in distantly related acidobacterial genome fragments derived from a metagenomic soil library, indicating a remarkable conservation of this genomic region within these Acidobacteria. A search for Acidobacteria-specific hits in directly comparable, available fosmid-end sequences from soil and marine metagenomic libraries showed a significant increase of their relative proportion in plankton libraries as a function of increasing depth reaching, at high depth, levels nearly comparable to those of soil. Thus, our results suggest that Acidobacteria are abundant and represent a significant proportion of the microbial community in the deep-sea ecosystem.

Published
2008

27. Novel Caudovirales associated with Marine Group I Thaumarchaeota assembled from metagenomes.

Author

López‐Pérez, Mario, Haro‐Moreno, Jose M., de la Torre, José R., and Rodriguez‐Valera, Francisco

Subjects
LYTIC cycle, OXIDATION of ammonia, METAGENOMICS, ARCHAEBACTERIA, VIRUS diversity, ENVIRONMENTAL sciences, BIOSYNTHESIS
Abstract

Summary: Marine Group I (MGI) Thaumarchaeota are some of the most abundant microorganisms in the deep ocean and responsible for much of the ammonia oxidation occurring in this environment. In this work, we present 35 sequences assembled from metagenomic samples of the first uncultivated Caudovirales viruses associated with Thaumarchaeota, which we designated marthavirus. Most of the sequences were obtained from cellular metagenomes confirming that they represent an important tool to study environmental viral communities due to cells retrieved while undergoing viral lysis. Metagenomic recruitment showed that this viral population is formed by very divergent entities with high intrapopulation homogeneity. However, metatranscriptomic analyses revealed the same differential expression profile with the capsid as major transcript, indicative of viruses during the lytic cycle. The cobalamine biosynthesis gene cobS, an auxiliary metabolic gene, was also highly expressed during the infection. These analyses expand our understanding of the global diversity of archaeal viruses. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Genetic analysis of housekeeping genes reveals a deep-sea ecotype of Alteromonas macleodii in the Mediterranean Sea

Author

Sergio G. Bartual, Lucas Stal, Arantxa López-López, Francisco Rodriguez-Valera, Olga Onyshchenko, and Marine Microbiology

Subjects
DNA, Bacterial, Molecular Sequence Data, Zoology, Biology, Polymerase Chain Reaction, Microbiology, Deep sea, Genetic analysis, Mediterranean sea, RNA, Ribosomal, 16S, DNA, Ribosomal Spacer, Mediterranean Sea, Internal transcribed spacer, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genetic diversity, Polymorphism, Genetic, Base Sequence, Ecotype, Ecology, Genetic Variation, DNA-Directed RNA Polymerases, biology.organism_classification, DNA Fingerprinting, Housekeeping gene, DNA Gyrase, Genes, Bacterial, Alteromonas macleodii, Alteromonas, Sequence Alignment
Abstract

The genetic diversity of 19 strains belonging to Alteromonas macleodii isolated from different geographic areas (Pacific and Indian Ocean, and different parts of the Mediterranean Sea) and at different depths (from the surface down to 3500 m) has been studied. Fragments of the 16S rRNA gene, the internal transcribed spacer (ITS) between 16S and 23S rDNA genes, the gyrB and the rpoB genes, have been sequenced for each strain. Amplified fragment length polymorphisms were used to characterize similarity at the level of the whole genome. Most of the diversity reflected the existence of a cluster of strains isolated from deep Mediterranean waters and two isolates from the Black Sea. Particularly the isolates from the deep sites were consistently different from all the others indicating the existence of a specific ecotype adapted to these conditions. Amplification of gyrB gene and ITS directly from DNA retrieved from deep Mediterreanean waters and one Atlantic sample showed that presence of this deep-sea ecotype is widespread and is not a product of culture bias. On the other hand, strains isolated from surface tropical waters showed a remarkable level of resemblance to the first isolate of this species obtained from Hawaii in 1972. The results indicate the existence of both lineages of global distribution and ecotypes adapted to specific conditions such as deep or more diluted (the Black Sea) waters.

Published
2005

29. Analysis of a genome fragment of a deep-sea uncultivated Group II euryarchaeote containing 16S rDNA, a spectinomycin-like operon and several energy metabolism genes

Author

Purificación López-García, David Moreira, and Francisco Rodriguez-Valera

Subjects
Spectinomycin, Operon, Oceans and Seas, Molecular Sequence Data, Euryarchaeota, Biology, Microbiology, Genome, Bacterial Proteins, 23S ribosomal RNA, RNA, Ribosomal, 16S, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Ferredoxin, DNA Primers, Repetitive Sequences, Nucleic Acid, Genetics, Likelihood Functions, Base Sequence, Models, Genetic, Bayes Theorem, Sequence Analysis, DNA, Fumarate reductase, Ribosomal RNA, biology.organism_classification, Gene Components, Energy Metabolism, Genome, Bacterial
Abstract

Summary We have sequenced and analysed a 39.5 kbp genome fragment of a marine Group II euryarchaeote identified in a metagenomic library of 500 m deep plankton at the Antarctic Polar Front. The clone contains a 16S rRNA gene that is separated from the 23S rRNA gene in the genome. This appears to be a trait shared by Thermoplasmatales and Group II euryarchaeota. This genome fragment exhibits a compact organization, including a few overlapping genes in the canonical spectinomycin-like ( spc ) operon for ribosomal pro- teins that is immediately upstream the 16S rDNA. Most open reading frames (ORFs) encoded proteins involved in housekeeping processes and, as expected, exhibited a phylogenetic distribution con- gruent with that of the 16S rRNA. A considerable num- ber of proteins with predicted transmembrane helices was identified. Among those, two proteins encoded by genes likely forming an operon appear to be part of a membrane terminal electron transport chain. One of these proteins has an unusual domain arrangement including ferredoxin, flavodoxin and one succinate dehydrogenase/fumarate reductase subunit. These proteins probably constitute a new succinate dehy- drogenase-like oxidoreductase involved in what could be a novel pathway for energy metabolism in Group II euryarchaeota.

Published
2004

30. Comparative analysis of a genome fragment of an uncultivated mesopelagic crenarchaeote reveals multiple horizontal gene transfers

Author

Francisco Rodriguez-Valera, Purificación López-García, Céline Brochier, and David Moreira

Subjects
Genetics, 0303 health sciences, biology, 030306 microbiology, Operon, biology.organism_classification, Cenarchaeum symbiosum, Microbiology, Genome, Hyperthermophile, 03 medical and health sciences, Crenarchaeota, Methanosarcinales, Genomic library, 14. Life underwater, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology
Abstract

Summary Marine planktonic crenarchaeota have escaped all cultivation attempts to date, all crenarchaeota grow- ing in pure culture so far being hyperthermophiles. Here, we present a comparative genomic analysis of a 16S- plus 23S-rDNA-containing fragment of a cre- narchaeote retrieved from an environmental genomic library constructed from picoplankton collected at 500 m depth in the Antarctic Polar Front. The clone DeepAnt-EC39 contained an insert of 33.3 kbp, which was completely sequenced. DeepAnt-EC39 appears to represent a lineage specific to deep-sea waters but widespread geographically, as revealed by the analy- sis of the 16S-23S-rDNA intergenic spacer region. A comparison with previously sequenced marine cre- narchaeotal genomic clones also containing an rrn operon (74A4, 4B7 and Cenarchaeum symbiosum strains A and B) revealed a highly variable structure involving gene rearrangements and insertions/dele- tions. The surroundings of the rrn operon and the contiguous glutamate-1-semialdehyde aminotrans- ferase gene appear hot spots for recombination. Phy- logenetic analyses of all individual predicted proteins revealed the existence of several likely cases of hor- izontal gene transfer both, between the two archaeal kingdoms and between the two prokaryotic domains. The most frequent horizontal transfers appear to involve genes from mesophilic methanogenic eur- yarchaeota related to Methanosarcinales. We hypoth- esise that the acquisition of genes from mesophilic bacteria and euryarchaeota has played a major role in the adaptation of Group I crenarchaeota to life at lower temperatures.

Published
2003

31. Diversity of Bacteria and Archaea in sulphate-reducing enrichment cultures inoculated from serial dilution of Zostera noltii rhizosphere samples

Author

Josefa Antón, Francisco Rodriguez-Valera, Ana Cifuentes, and Rutger de Wit

Subjects
DNA, Bacterial, Sucrose, Serial dilution, Molecular Sequence Data, Fructose, Acetates, Desulfovibrionaceae, medicine.disease_cause, DNA, Ribosomal, Plant Roots, Microbiology, RNA, Ribosomal, 16S, Botany, medicine, Lactic Acid, Organic Chemicals, Ecosystem, Soil Microbiology, Ecology, Evolution, Behavior and Systematics, Rhizosphere, Bacteria, Base Sequence, biology, Sulfates, Zosteraceae, biology.organism_classification, Archaea, Quaternary Ammonium Compounds, DNA, Archaeal, Desulfovibrio dechloracetivorans, Diazotroph, Energy source, Soil microbiology
Abstract

We have analysed the diversity of culturable sulphate-reducing bacteria (SRB) in Zostera noltii colonized sediments from Bassin d'Arcachon (France). Four organic substrates have been tested as well as the combination of H2 and CO2 to select for lithotrophic SRB. All energy sources were supplied in parallel cultures that were amended with yeast extract plus NH4+ and prepared without a source of combined nitrogen, the latter to select for diazotrophic SRB. The 10 different enrichment media were inoculated from serial dilution of rhizosphere samples. The highest dilution cultures yielding positive growth (i.e. 10-7) were studied by molecular techniques (16S rDNA clone libraries, RISA and ARDRA). Lactate as a single organic substrate in combination with a source of combined nitrogen resulted in selection of members of the Desulfovibrionaceae. Surprisingly, when lactate was added without a source of combined nitrogen, Desulfobacteriaceae were selected. A strong influence of the presence or absence of combined nitrogen was also observed for the substrates sucrose and fructose. Whereas the liquid culture growing on sucrose and NH4+ systematically yielded 16S rDNA clones related to an environmental unidentified green sulphur bacterium (OPS185), on plates we were able to isolate a SRB related to Desulfovibrio dechloracetivorans, which likely represents a non-described species. Under diazotrophic conditions, sucrose selected for SRB clones related to the cluster formed by Desulfovibrio zosterae, Desulfovibrio salexigens and Desulfovibrio bastinii. The corresponding isolate obtained on plates showed only low sequence similarity with this closest neighbour (93.8%), and we suggest that it also represents a non-described species. Surprisingly, a 16S rDNA sequence corresponding to an archaeon, i.e. a non-extremophile Crenoarchaeota, was retrieved from several of the SRB enrichment cultures even after subsequent transfers.

Published
2003

32. Prokaryotic genetic diversity throughout the salinity gradient of a coastal solar saltern

Author

Francisco Rodriguez-Valera, Ramon Massana, Arantxa López-López, Frede Thingstad, Carlos Pedrós-Alió, Gary R. Smerdon, Emilio O. Casamayor, Victoria Goddard, Susana Benlloch, Ian Joint, Frida Lise Daae, and Lise Øvreås

Subjects
Electrophoresis, Molecular Sequence Data, Sodium Chloride, Microbiology, Microbial ecology, RNA, Ribosomal, 16S, Botany, Seawater, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics, Gene Library, Bacteria, biology, Ecology, fungi, Genetic Variation, Haloquadratum walsbyi, biology.organism_classification, Archaea, Haloquadratum, Halophile, Salinity, Proteobacteria, Water Microbiology, Temperature gradient gel electrophoresis
Abstract

Bacterial and archaeal assemblages have been studied in a multipond solar saltern using a range of microbial ecology techniques by four laboratories simultaneously. These include 16S rDNA sequencing from both denaturing gradient gel electrophoresis (DGGE) and clone libraries, and culturing methods. Water samples from eight ponds were analysed, covering a salinity range from near sea water (4% salt) to saturated sodium chloride (37% salt; ponds called crystallizers). Clone libraries focused on ponds with salinity of 8%, 22% and 32%. Although different cloning strategies were able to retrieve the same type of dominant sequences, there were differing degrees of success with less abundant sequences. Thus, the use of two sets of primers recovered a higher number of phylotypes. Bacterial and archaeal isolates were, however, different from any of the retrieved environmental sequences. For Bacteria, most sequences in the 8% salt pond were related to organisms of marine origin. Thus, representatives of the alpha‐, beta‐, gamma‐ and epsilon‐subdivisions of Proteobacteria, the Cytophaga–Flavobacterium–Bacteroides group (CFB), high‐G+C Gram‐positive bacteria and cyanobacteria were found. In the 22% salt pond, alpha‐ and gamma‐Proteobacteria, cyanobacteria and CFB were the only groups found, and most of them were related to specialized halophilic bacteria. From the 32% salt pond, only CFB were found, and most of the sequences retrieved clustered with Salinibacter ruber, an extremely halophilic bacterium. A decrease in the richness of bacterial genera was therefore apparent along the gradient. Archaea behaved quite similarly. In the lowest salinity ponds, sequences were related to environmental clones of Marine Archaea Group III (Thermoplasmales relatives) and to unclassified branches of Euryarchaeaota. In the 8%, 22% and 32% ponds, most of the clones were related to different cultured strains of Halobacteriaceae. Finally, most sequences from the crystallizers clustered with the uncultured square archaeon SPhT. Crenarchaeaota were not detected. Despite the fact that higher prokaryotic richness was apparent in the lower salinity ponds than in the crystallizers, the diversity index from clone libraries calculated according to Shannon and Weaver did not show this trend. This was because diversity in the crystallizers can be considered as ‘microdiversity’, the co‐existence of several closely related clones of Bacteria (the S. ruber cluster) and Archaea (the SPhT cluster). Regardless of the changes in abundance, both Bacteria and Archaea showed the same pattern; as salinity increased, the number of different clusters decreased, and only one cluster became dominant. Both clusters, however, showed a considerable degree of microdiversity. The meaning of such microdiversity remains to be determined

Published
2002

33. Changes in archaeal, bacterial and eukaryal assemblages along a salinity gradient by comparison of genetic fingerprinting methods in a multipond solar saltern

Author

Carlos Pedrós-Alió, Josep M. Gasol, Victoria Goddard, Susana Benlloch, Ramon Massana, Ian Joint, Emilio O. Casamayor, Beatriz Díez, Francisco Rodriguez-Valera, and Lise Øvreås

Subjects
Electrophoresis, Microorganism, Sodium Chloride, Biology, Bacterial Physiological Phenomena, Polymerase Chain Reaction, Microbiology, RNA, Ribosomal, 16S, Botany, Seawater, Internal transcribed spacer, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics, Bacteria, Ecology, Ribosomal RNA, 16S ribosomal RNA, biology.organism_classification, Archaea, DNA Fingerprinting, Salinity, Eukaryotic Cells, DNA profiling, Water Microbiology, Temperature gradient gel electrophoresis
Abstract

Casamayor, Emilio O. ... et al.-- 11 pages, 7 figures, 2 tables, Microbial communities inhabiting a multipond solar saltern were analysed and compared using SSU rRNA polymerase chain reaction (PCR)-based fingerprintings carried out in parallel by four laboratories. A salinity gradient from seawater (3.7%) to NaCl precipitation (37%) was studied for Bacteria, Archaea and Eukarya, and laboratories applied their own techniques and protocols on the same set of samples. Members of all three domains were retrieved from all salt concentrations. Three fingerprinting techniques were used: denaturing gradient gel electrophoresis (DGGE), ribosomal internal spacer analysis (RISA), and terminal-restriction fragments length polymorphism (T-RFLP). In addition, each laboratory used its own biomass collection method and DNA extraction protocols. Prokaryotes were addressed using DGGE and RISA with different 'domain-specific' primers sets. Eukaryotes were analysed by one laboratory using DGGE and T-RFLP, but targeting the same 18S rDNA site. Fingerprints were compared through cluster analysis and non-metric multidimensional scaling plots. This exercise allowed fast comparison of microbial assemblages and determined to what extent the picture provided by each laboratory was similar to those of others. Formation of two main, salinity-based groups of samples in prokaryotes (4-15% and 22-37% salinity) was consistent for all the laboratories. When other clusters appeared, this was a result of the particular technique and the protocol used in each case, but more affected by the primers set used. Eukaryotic microorganisms changed more from pond to pond; 4-5% and 8-37% salinity were but the two main groups detected. Archaea showed the lowest number of bands whereas Eukarya showed the highest number of operational taxonomic units (OTUs) in the initial ponds. Artefacts appeared in the DGGE from ponds with extremely low microbial richness. On the other hand, different 16S rDNA fragments with the same restriction or internal transcribed spacer (ITS) length were the main limitations for T-RFLP and RISA analyses, respectively, in ponds with the highest OTUs richness. However, although the particular taxonomic composition could vary among protocols, the general structure of the microbial assemblages was maintained, This work was funded by project MIDAS (Microbial Diversity in Aquatic Systems, MAS3‐CT97‐0154) from the European Union

Published
2002

34. Prevalence and microdiversity of Alteromonas macleodii-like microorganisms in different oceanic regions

Author

Jesús García-Martínez, Silvia Acinas, Francisco Rodriguez-Valera, Javier Garcia-martinez, and Ramon Massana

Subjects
Mediterranean climate, Microorganism, Molecular Sequence Data, Antarctic Regions, Microbiology, RNA, Ribosomal, 16S, DNA, Ribosomal Spacer, Seawater, Cloning, Molecular, Indian Ocean, Phylogeny, Ecology, Evolution, Behavior and Systematics, Base Sequence, biology, Ecology, Ribosomal RNA, biology.organism_classification, RNA, Bacterial, RNA, Ribosomal, 23S, Caribbean Region, RNA, Ribosomal, Alteromonas macleodii, Alteromonas, Water Microbiology, Sequence Alignment
Abstract

Summary The presence, prevalence and variability of microorganisms related to the species Alteromonas macleodii, a well known culturable γ-Proteobacterium, has been studied in different seawater samples from diverse geographical locations, in both the Northern and Southern hemispheres, and tested with two molecular techniques (rRNA hybridization and gene cloning and sequencing). Results show that A. macleodii-like microorganisms are present in high proportions in North Atlantic and, especially, Mediterranean waters, being higher at deep samples and particle-associated fractions, in agreement with previous findings. In contrast, Southern samples (all from very cold areas near Antarctica) presented no significant hybridization signals. The analysis of the ribosomal ITS (16S-23S internal transcribed spacers) revealed that A. macleodii-like microorganisms from Mediterranean, North Atlantic, Caribbean and Red Sea waters differed in both size and sequence, mostly depending on their geographical origin, with Mediterranean and North Atlantic clones clustering into two main groups whereas Caribbean and Red Sea clones appeared separated.

Published
2002

35. Fluorescence in situ hybridization analysis of the prokaryotic community inhabiting crystallizer ponds

Author

Enric Llobet-Brossa, Francisco Rodriguez-Valera, Josefa Antón, and Rudolf Amann

Subjects
Haloarcula, biology, Ecology, Hybridization probe, Haloquadratum walsbyi, Sodium Chloride, biology.organism_classification, 16S ribosomal RNA, Archaea, DNA, Ribosomal, Microbiology, Haloquadratum, DNA, Archaeal, RNA, Ribosomal, 16S, Botany, Haloferax, Halorubrum, DNA Probes, Water Microbiology, In Situ Hybridization, Fluorescence, Ecology, Evolution, Behavior and Systematics, Bacteria
Abstract

A fluorescence in situ hybridization (FISH) protocol suitable for the identification of prokaryotes inhabiting hypersaline environments was developed and applied to several crystallizer ponds with salinities above 36% from a multipond solar saltern in Alicante, Spain. Two morphotypes were abundant in these environments: rods and square or square-like prokaryotes that could be affiliated to Bacteria and Archaea, respectively, by FISH with domain-specific probes. FISH with a newly designed probe proved that the archaeal 16S rDNA sequence most frequently recovered from the crystallizers, SPhT, originated from the dominant square-like prokaryotes. These uncultured prokaryotes have the morphology of Walsby's square bacteria. Additionally, FISH with a probe targeted to the genus Haloarcula, members of which are frequently isolated from this environment, indicated that this genus accounts for less than 0.1% of the total prokaryotic community.

Published
1999

36. Comparative analysis of genome fragments of Acidobacteria from deep Mediterranean plankton

Author

Achim, Quaiser, Purificación, López-García, Yvan, Zivanovic, Matthew R, Henn, Francisco, Rodriguez-Valera, and David, Moreira

Subjects
DNA, Bacterial, Open Reading Frames, Bacteria, Molecular Sequence Data, Operon, Mediterranean Sea, Sequence Homology, Genes, rRNA, Seawater, Sequence Analysis, DNA, Plankton, Synteny, Conserved Sequence
Abstract

Acidobacteria constitute a still poorly studied phylum that is well represented in soils. Recent studies suggest that members of this phylum may be also abundant in deep-sea plankton, but their relative abundance and ecological role in this ecosystem are completely unknown. A recent screening of three metagenomic deep-sea libraries of bathypelagic plankton from the South Atlantic (1000 m depth), the Adriatic (1000 m depth) and the Ionian (3000 m depth) seas in the Mediterranean revealed an unexpected relative proportion of acidobacterial fosmids, which affiliated to the Solibacterales (Group 3), to the Group 11 and, most frequently, to the Group 6 of this diverse phylum. Here, we present the comparative analysis of 11 acidobacterial genome fragments containing the rrn operon from these Mediterranean libraries. A highly conserved syntenic region spanning up to 30 kb and containing up to 25 open reading frames was shared by Group 6 Acidobacteria. Synteny was also partially conserved in distantly related acidobacterial genome fragments derived from a metagenomic soil library, indicating a remarkable conservation of this genomic region within these Acidobacteria. A search for Acidobacteria-specific hits in directly comparable, available fosmid-end sequences from soil and marine metagenomic libraries showed a significant increase of their relative proportion in plankton libraries as a function of increasing depth reaching, at high depth, levels nearly comparable to those of soil. Thus, our results suggest that Acidobacteria are abundant and represent a significant proportion of the microbial community in the deep-sea ecosystem.

Published
2008

37. Isolation and cultivation of Walsby's square archaeon

Author

Evelien M Te Poele, Francisco Rodriguez-Valera, and Henk Bolhuis

Subjects
Geologic Sediments, DEAD-SEA, SALTERN CRYSTALLIZER PONDS, Microorganism, Hypertonic Solutions, DIVERSITY, Magnesium Chloride, Sodium Chloride, BRINE POOL, SOLAR SALTERN, Microbiology, Genome, CULTURE, Genome, Archaeal, Botany, MICROORGANISMS, Seawater, Ecology, Evolution, Behavior and Systematics, Organism, Microscopy, biology, GEN-NOV, Ecology, Haloquadratum walsbyi, biology.organism_classification, Isolation (microbiology), Archaea, Haloquadratum, Halophile, Culture Media, Microscopy, Electron, Halophilic archaeon, BACTERIUM, SP-NOV, Water Microbiology
Abstract

In 1980, A. E. Walsby described a square halophilic archaeon. This archaeon is of specific interest because of its unique shape and its abundance in hypersaline ecosystems, which suggests an important ecophysiological role. Ever since its discovery, the isolation and cultivation of 'Walsby's square archaeon' has been a holy grail for many microbiologists working on halophiles. Despite their abundance and easy recognition by microscopy, all cultivation attempts have failed up to now, marking the organism as one of the unculturables. Cultivation of the square archaeon is essential to understand their ecophysiological role and the nature of their unique morphologically features. Here, we report the isolation and cultivation of the enigmatic square archaeon that we propose to name Haloquadratum walsbyi. Pure cultures are easily maintained in simple artificial hypersaline media. Initial growth experiments revealed a tolerance to high concentrations of MgCl2 (>2 M) in the presence of 3.3 M NaCl. Fresh cultures contained extraordinary large cells (>40 x 40 mum) without any visible division structures, ranking them among the largest prokaryotes known to date. The genome was estimated to contain approximately three million basepairs.

Published
2004

38. Comparative analysis of a genome fragment of an uncultivated mesopelagic crenarchaeote reveals multiple horizontal gene transfers

Author

Purificación, López-García, Céline, Brochier, David, Moreira, and Francisco, Rodríguez-Valera

Subjects
Recombination, Genetic, Gene Transfer, Horizontal, Chromosomes, Archaeal, Molecular Sequence Data, Crenarchaeota, Sequence Analysis, DNA, DNA, Ribosomal, Genes, Archaeal, Open Reading Frames, DNA, Archaeal, DNA, Ribosomal Spacer, Gene Order, Water Microbiology, Conserved Sequence, Phylogeny
Abstract

Marine planktonic crenarchaeota have escaped all cultivation attempts to date, all crenarchaeota growing in pure culture so far being hyperthermophiles. Here, we present a comparative genomic analysis of a 16S- plus 23S-rDNA-containing fragment of a crenarchaeote retrieved from an environmental genomic library constructed from picoplankton collected at 500 m depth in the Antarctic Polar Front. The clone DeepAnt-EC39 contained an insert of 33.3 kbp, which was completely sequenced. DeepAnt-EC39 appears to represent a lineage specific to deep-sea waters but widespread geographically, as revealed by the analysis of the 16S-23S-rDNA intergenic spacer region. A comparison with previously sequenced marine crenarchaeotal genomic clones also containing an rrn operon (74A4, 4B7 and Cenarchaeum symbiosum strains A and B) revealed a highly variable structure involving gene rearrangements and insertions/deletions. The surroundings of the rrn operon and the contiguous glutamate-1-semialdehyde aminotransferase gene appear hot spots for recombination. Phylogenetic analyses of all individual predicted proteins revealed the existence of several likely cases of horizontal gene transfer both, between the two archaeal kingdoms and between the two prokaryotic domains. The most frequent horizontal transfers appear to involve genes from mesophilic methanogenic euryarchaeota related to Methanosarcinales. We hypothesise that the acquisition of genes from mesophilic bacteria and euryarchaeota has played a major role in the adaptation of Group I crenarchaeota to life at lower temperatures.

Published
2003

39. Diversity of bacteriorhodopsins in different hypersaline waters from a single Spanish saltern

Author

W. Ford Doolittle, Christophe J. Douady, Francisco Rodriguez-Valera, and R. Thane Papke

Subjects
Molecular Sequence Data, Biology, Microbiology, Polymerase Chain Reaction, chemistry.chemical_compound, Botany, Phototaxis, Seawater, Amino Acid Sequence, Ecology, Evolution, Behavior and Systematics, Phylogeny, Phototroph, Ecology, Genetic Variation, Membrane Proteins, Bacteriorhodopsin, Sequence Analysis, DNA, Halorhodopsins, biology.organism_classification, Archaea, DNA, Archaeal, chemistry, Rhodopsin, Spain, Chlorophyll, Bacteriorhodopsins, Haloarchaea, biology.protein, Water Microbiology, Sequence Alignment
Abstract

Summary Haloarchaeal rhodopsins are a diverse group of trans- membrane proteins that use light energy to drive sev- eral different cellular processes. Two rhodopsins, bacteriorhodopsin and halorhodopsins, are H + and Cl - ion pumps, respectively, and two rhodopsins, sensory rhodopsin I and II, regulate phototaxis. Bacteriorhodopsin is of special interest as it is a non- chlorophyll-based type of phototrophy (i.e. genera- tion of chemical energy from light energy). However, very little is known about the diversity and distribu- tion of rhodopsin genes in hypersaline environments. Here, we have used environmental PCR and cloning techniques to directly retrieve rhodopsin genes from three different salinity ponds located in a sea salt manufacturing facility near Alicante, Spain. Our sur- vey resulted in the discovery of previously concealed variation including what is hypothesized to be bacte- riorhodopsin genes from the uncultivated square morphotype that dominates these environments. In some instances, identical genes were discovered in seemingly different habitats suggesting that some haloarchaea are present over widely varying concen- trations of salt.

Published
2003

40. Approaches to prokaryotic biodiversity: a population genetics perspective

Author

Francisco, Rodríguez-Valera

Subjects
Genetics, Population, Genetic Variation, Genomics, Biological Evolution, Microbiology
Abstract

The study of prokaryotic diversity has blossomed during the last 10-15 years as a result of the introduction of molecular identification, mostly based on direct 16S rRNA gene polymerase chain reaction (PCR) amplification and sequencing from natural samples. A large amount of information exists about the diversity of this specific gene. However, data from the field of bacterial population genetics and genomics make questionable the value of information regarding just one gene. Even if we accept 16S rRNA genes as useful for species identification, intraspecific variation in bacteria is so high that species catalogues are often of little value. The gene pools represented by an operational species are yet impossible to predict. On the other hand, adaptive features in prokaryotes are often coded in gene clusters (genomic islands) that can be cloned directly from the environment, sequenced and even expressed in a surrogate host. Thus, the study of the environmental genome or metagenome appears as an alternative that could eventually lead to a more realistic understanding of prokaryotic biodiversity, provide biotechnology with new tools and maybe even contribute to develop a model of prokaryotic evolution.

Published
2002

41. A novel haloarchaeal-related lineage is widely distributed in deep oceanic regions

Author

Francisco Rodriguez-Valera, Arantxa López-López, Purificación López-García, and David Moreira

Subjects
Mediterranean climate, Polar front, Phylotype, DNA, Bacterial, Lineage (evolution), Molecular Sequence Data, Antarctic Regions, Sequence Analysis, DNA, Biology, biology.organism_classification, Microbiology, Archaea, DNA, Ribosomal, Polymerase Chain Reaction, Paleontology, Water column, RNA, Ribosomal, 16S, Haloarchaea, Seawater, Euryarchaeota, Atlantic Ocean, Ecology, Evolution, Behavior and Systematics, Phylogeny
Abstract

Summary During our study of the 16S rRNA gene sequencebased archaeal diversity of a deep-sea site located at a 3000 m depth at the Antarctic Polar Front, we detected several phylotypes ascribed to already known Group II and III Euryarchaeota, and a cluster of distinct sequences that branched off at the base of haloarchaea. The position of this lineage (marine Group IV) was very robust using distance (neighbourjoining) and maximum-likelihood methods. Subsequently, we designed specific primers for the detection of this archaeal group in other marine environments using polymerase chain reaction amplification and sequence comparison. Group IV archaea were found in the Antarctic area (across a gradient from the Southern ocean to the South Atlantic), and also in North Atlantic and Mediterranean waters. In all oceanic locations, Group IV archaea were never detected in surface waters, but were vertically distributed in the deepest part of the water column.

Published
2001

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