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5. Assessing the Effects of Climate on Host-Parasite Interactions: A Comparative Study of European Birds and Their Parasites

Author

Møller, Anders Pape, primary, Merino, Santiago, additional, Soler, Juan José, additional, Antonov, Anton, additional, Badás, Elisa P., additional, Calero-Torralbo, Miguel A., additional, de Lope, Florentino, additional, Eeva, Tapio, additional, Figuerola, Jordi, additional, Flensted-Jensen, Einar, additional, Garamszegi, Laszlo Z., additional, González-Braojos, Sonia, additional, Gwinner, Helga, additional, Hanssen, Sveinn Are, additional, Heylen, Dieter, additional, Ilmonen, Petteri, additional, Klarborg, Kurt, additional, Korpimäki, Erkki, additional, Martínez, Javier, additional, Martínez-de la Puente, Josue, additional, Marzal, Alfonso, additional, Matthysen, Erik, additional, Matyjasiak, Piotr, additional, Molina-Morales, Mercedes, additional, Moreno, Juan, additional, Mousseau, Timothy A., additional, Nielsen, Jan Tøttrup, additional, Pap, Péter László, additional, Rivero-de Aguilar, Juan, additional, Shurulinkov, Peter, additional, Slagsvold, Tore, additional, Szép, Tibor, additional, Szöllősi, Eszter, additional, Török, Janos, additional, Vaclav, Radovan, additional, Valera, Francisco, additional, and Ziane, Nadia, additional

Published
2013
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9. Distribution Analysis of Hydrogenases in Surface Waters of Marine and Freshwater Environments

Author

Barz, Martin, Beimgraben, Christian, Staller, Torsten, Germer, Frauke, Opitz, Friederike, Marquardt, Claudia, Schwarz, Christoph, Gutekunst, Kirstin, Vanselow, Klaus Heinrich, Schmitz, Ruth, LaRoche, Julie, Schulz, Rüdiger, Appel, Jens, and Rodriguez-Valera, Francisco

Subjects
DNA, Bacterial, Cyanobacteria, Hydrogenase, Molecular Sequence Data, lcsh:Medicine, Fresh Water, 03 medical and health sciences, Marine bacteriophage, Marine and Aquatic Sciences/Microbiology, Bacterial Proteins, Species Specificity, Mediterranean Sea, Microbiology/Environmental Microbiology, Seawater, 14. Life underwater, lcsh:Science, Atlantic Ocean, Ecosystem, Phylogeny, 030304 developmental biology, Marine snow, 0303 health sciences, Multidisciplinary, Bacteria, biology, 030306 microbiology, Ecology, Aquatic ecosystem, lcsh:R, fungi, Marine habitats, Pelagic zone, Marine and Aquatic Sciences/Bioinformatics, Sequence Analysis, DNA, Synechococcus, biology.organism_classification, 13. Climate action, Metagenome, lcsh:Q, North Sea, Ecology/Environmental Microbiology, Research Article, Hydrogen
Abstract

BACKGROUND: Surface waters of aquatic environments have been shown to both evolve and consume hydrogen and the ocean is estimated to be the principal natural source. In some marine habitats, H(2) evolution and uptake are clearly due to biological activity, while contributions of abiotic sources must be considered in others. Until now the only known biological process involved in H(2) metabolism in marine environments is nitrogen fixation. PRINCIPAL FINDINGS: We analyzed marine and freshwater environments for the presence and distribution of genes of all known hydrogenases, the enzymes involved in biological hydrogen turnover. The total genomes and the available marine metagenome datasets were searched for hydrogenase sequences. Furthermore, we isolated DNA from samples from the North Atlantic, Mediterranean Sea, North Sea, Baltic Sea, and two fresh water lakes and amplified and sequenced part of the gene encoding the bidirectional NAD(P)-linked hydrogenase. In 21% of all marine heterotrophic bacterial genomes from surface waters, one or several hydrogenase genes were found, with the membrane-bound H(2) uptake hydrogenase being the most widespread. A clear bias of hydrogenases to environments with terrestrial influence was found. This is exemplified by the cyanobacterial bidirectional NAD(P)-linked hydrogenase that was found in freshwater and coastal areas but not in the open ocean. SIGNIFICANCE: This study shows that hydrogenases are surprisingly abundant in marine environments. Due to its ecological distribution the primary function of the bidirectional NAD(P)-linked hydrogenase seems to be fermentative hydrogen evolution. Moreover, our data suggests that marine surface waters could be an interesting source of oxygen-resistant uptake hydrogenases. The respective genes occur in coastal as well as open ocean habitats and we presume that they are used as additional energy scavenging devices in otherwise nutrient limited environments. The membrane-bound H(2)-evolving hydrogenases might be useful as marker for bacteria living inside of marine snow particles.

Published
2010

11. Ribosomal Multi-Operon Diversity: An Original Perspective on the Genus Aeromonas.

Author

Roger, Frédéric, Lamy, Brigitte, Jumas-Bilak, Estelle, Kodjo, Angeli, Marchandin, Hélène, and Rodriguez-Valera, Francisco

Subjects
AEROMONAS, PHYLOGENY, PULSED-field gel electrophoresis, POLYMERASE chain reaction, RIBOSOMES, CHROMOSOMES
Abstract

16S rRNA gene (rrs) is considered of low taxonomic interest in the genus Aeromonas. Here, 195 Aeromonas strains belonging to populations structured by multilocus phylogeny were studied using an original approach that considered Ribosomal Multi-Operon Diversity. This approach associated pulsed-field gel electrophoresis (PFGE) to assess rrn operon number and distribution across the chromosome and PCR-temporal temperature gel electrophoresis (TTGE) to assess rrs V3 region heterogeneity. Aeromonads harbored 8 to 11 rrn operons, 10 operons being observed in more than 92% of the strains. Intraspecific variability was low or nul except for A. salmonicida and A. aquariorum suggesting that large chromosomic rearrangements might occur in these two species while being extremely rarely encountered in the evolution of other taxa. rrn operon number at 8 as well as PFGE patterns were shown valuable for taxonomic purpose allowing resolution of species complexes. PCR-TTGE revealed a high rate of strains (41.5%) displaying intragenomic rrs heterogeneity. Strains isolated from human samples more frequently displayed intragenomic heterogeneity than strains recovered from non-human and environmental specimens. Intraspecific variability ranged from 0 to 76.5% of the strains. The observation of species-specific TTGE bands, the recovery of identical V3 regions in different species and the variability of intragenomic heterogeneity (1-13 divergent nucleotides) supported the occurrence of mutations and horizontal transfer in aeromonad rrs evolution. Altogether, the presence of a high number of rrn operon, the high proportion of strains harboring divergent rrs V3 region and the previously demonstrated high level of genetic diversity argued in favor of highly adaptative capabilities of aeromonads. Outstanding features observed for A. caviae supported the ongoing process of adaptation to a specialized niche represented by the gut, previously hypothesized. 16S rRNA gene is an informative marker in the genus Aeromonas for both evolutionary and polyphasic taxonomic studies provided that multi-operon fingerprinting approaches are used. [ABSTRACT FROM AUTHOR]

Published
2012
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12. Conservation of Gene Cassettes among Diverse Viruses of the Human Gut.

Author

Minot, Samuel, Wu, Gary D., Lewis, James D., Bushman, Frederic D., and Rodriguez-Valera, Francisco

Subjects
VIRUSES, HUMAN beings, GENES, GENOMES, METAGENOMICS, NUCLEOTIDE sequence, BACTERIOPHAGES, NUCLEOTIDES
Abstract

Viruses are a crucial component of the human microbiome, but large population sizes, high sequence diversity, and high frequencies of novel genes have hindered genomic analysis by high-throughput sequencing. Here we investigate approaches to metagenomic assembly to probe genome structure in a sample of 5.6 Gb of gut viral DNA sequence from six individuals. Tests showed that a new pipeline based on DeBruijn graph assembly yielded longer contigs that were able to recruit more reads than the equivalent non-optimized, single-pass approach. To characterize gene content, the database of viral RefSeq proteins was compared to the assembled viral contigs, generating a bipartite graph with functional cassettes linking together viral contigs, which revealed a high degree of connectivity between diverse genomes involving multiple genes of the same functional class. In a second step, open reading frames were grouped by their co-occurrence on contigs in a database-independent manner, revealing conserved cassettes of co-oriented ORFs. These methods reveal that free- living bacteriophages, while usually dissimilar at the nucleotide level, often have significant similarity at the level of encoded amino acid motifs, gene order, and gene orientation. These findings thus connect contemporary metagenomic analysis with classical studies of bacteriophage genomic cassettes. Software is available at https://sourceforge.net/projects/optitdba/. [ABSTRACT FROM AUTHOR]

Published
2012
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13. A Hybrid NRPS-PKS Gene Cluster Related to the Bleomycin Family of Antitumor Antibiotics in Alteromonas macleodii Strains.

Author

Mizuno, Carolina Megumi, Kimes, Nikole E., López-Pérez, Mario, Ausó, Eva, Rodriguez-Valera, Francisco, and Ghai, Rohit

Subjects
BLEOMYCIN, ANTINEOPLASTIC agents, ANTIBIOTICS, ALTEROMONAS, POLYKETIDE synthases, TRANSPOSASES, DRUG resistance, NUCLEOTIDE sequence
Abstract

Although numerous marine bacteria are known to produce antibiotics via hybrid NRPS-PKS gene clusters, none have been previously described in an Alteromonas species. In this study, we describe in detail a novel hybrid NRPS-PKS cluster identified in the plasmid of the Alteromonas macleodii strain AltDE1 and analyze its relatedness to other similar gene clusters in a sequence-based characterization. This is a mobile cluster, flanked by transposase-like genes, that has even been found inserted into the chromosome of some Alteromonas macleodii strains. The cluster contains separate genes for NRPS and PKS activity. The sole PKS gene appears to carry a novel acyltransferase domain, quite divergent from those currently characterized. The predicted specificities of the adenylation domains of the NRPS genes suggest that the final compound has a backbone very similar to bleomycin related compounds. However, the lack of genes involved in sugar biosynthesis indicates that the final product is not a glycopeptide. Even in the absence of these genes, the presence of the cluster appears to confer complete or partial resistance to phleomycin, which may be attributed to a bleomycin-resistance-like protein identified within the cluster. This also suggests that the compound still shares significant structural similarity to bleomycin. Moreover, transcriptomic evidence indicates that the NRPS-PKS cluster is expressed. Such sequence-based approaches will be crucial to fully explore and analyze the diversity and potential of secondary metabolite production, especially from increasingly important sources like marine microbes. [ABSTRACT FROM AUTHOR]

Published
2013
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14. Architecture and Gene Repertoire of the Flexible Genome of the Extreme Acidophile Acidithiobacillus caldus

Author

David S. Holmes, Harold Nuñez, Jorge Valdés, Raquel Quatrini, Rodrigo Flores, Amir Shmaryahu, Juan José Haristoy, Gonzalo Riadi, Juan Pablo Cárdenas, Jillian F. Banfield, Douglas E. Rawlings, Mark Dopson, Paulo C. Covarrubias, Lillian G. Acuña, Publica, and Rodriguez-Valera, Francisco

Subjects
Transposable element, General Science & Technology, Science, Acidithiobacillus, Genomics, Biology, Genome, Bacterial Proteins, Genetic, Genetics, CRISPR, Comparative genomics, Multidisciplinary, Conjugation, Human Genome, Bacterial, Correction, Computational Biology, biology.organism_classification, Conjugation, Genetic, Acidophile, DNA Transposable Elements, Medicine, Mobile genetic elements, Genome, Bacterial, Sulfur, Plasmids, Biotechnology, Research Article
Abstract

Background: Acidithiobacillus caldus is a sulfur oxidizing extreme acidophile and the only known mesothermophile within the Acidithiobacillales. As such, it is one of the preferred microbes for mineral bioprocessing at moderately high temperatures. In this study, we explore the genomic diversity of A. caldus strains using a combination of bioinformatic and experimental techniques, thus contributing first insights into the elucidation of the species pangenome. Principal Findings: Comparative sequence analysis of A. caldus ATCC 51756 and SM-1 indicate that, despite sharing a conserved and highly syntenic genomic core, both strains have unique gene complements encompassing nearly 20% of their respective genomes. The differential gene complement of each strain is distributed between the chromosomal compartment, one megaplasmid and a variable number of smaller plasmids, and is directly associated to a diverse pool of mobile genetic elements (MGE). These include integrative conjugative and mobilizable elements, genomic islands and insertion sequences. Some of the accessory functions associated to these MGEs have been linked previously to the flexible gene pool in microorganisms inhabiting completely different econiches. Yet, others had not been unambiguously mapped to the flexible gene pool prior to this report and clearly reflect strain-specific adaption to local environmental conditions. Significance: For many years, and because of DNA instability at low pH and recurrent failure to genetically transform acidophilic bacteria, gene transfer in acidic environments was considered negligible. Findings presented herein imply that a more or less conserved pool of actively excising MGEs occurs in the A. caldus population and point to a greater frequency of gene exchange in this econiche than previously recognized. Also, the data suggest that these elements endow the species with capacities to withstand the diverse abiotic and biotic stresses of natural environments, in particular those associated with its extreme econiche. © 2013 Acuña et al.

Published
2013

15. Microbial life in a fjord: metagenomic analysis of a microbial mat in Chilean patagonia

Author

Nathaly Ruiz-Tagle, Victor A. Gallardo, Eric E. Allen, Sandra Ferrada-Fuentes, Práxedes Muñoz, Camila Belmar, María José Gallardo, Carola Espinoza, Juan A. Ugalde, and Rodriguez-Valera, Francisco

Subjects
DNA, Bacterial, 16S, General Science & Technology, Science, Microbial Consortia, Fjord, 03 medical and health sciences, Rivers, Phylogenetics, RNA, Ribosomal, 16S, Gammaproteobacteria, Genetics, Microbial mat, Chile, Psychrophile, Phylogeny, 030304 developmental biology, Ribosomal, 0303 health sciences, geography, Genetic diversity, Multidisciplinary, geography.geographical_feature_category, biology, 030306 microbiology, Ecology, Bacterial, Molecular Sequence Annotation, DNA, Sequence Analysis, DNA, biology.organism_classification, Molecular Typing, Microbial population biology, Metagenomics, RNA, Metagenome, Medicine, Energy Metabolism, Water Microbiology, Sequence Analysis, Metabolic Networks and Pathways, Research Article
Abstract

The current study describes the taxonomic and functional composition of metagenomic sequences obtained from a filamentous microbial mat isolated from the Comau fjord, located in the northernmost part of the Chilean Patagonia. The taxonomic composition of the microbial community showed a high proportion of members of the Gammaproteobacteria, including a high number of sequences that were recruited to the genomes of Moritella marina MP-1 and Colwellia 34H, suggesting the presence of populations related to these two psychrophilic bacterial species. Functional analysis of the community indicated a high proportion of genes coding for the transport and metabolism of amino acids, as well as in energy production. Among the energy production functions, we found protein-coding genes for sulfate and nitrate reduction, both processes associated with Gammaproteobacteria-related sequences. This report provides the first examination of the taxonomic composition and genetic diversity associated with these conspicuous microbial mat communities and provides a framework for future microbial studies in the Comau fjord. © 2013 Ugalde et al.

Published
2013

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