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14. Use of pyrosequencing and DNA barcodes to monitor variations in Firmicutes and Bacteroidetes communities in the gut microbiota of obese humans

Author

Raoult Didier and Armougom Fabrice

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Recent studies of 16S rRNA genes in the mammalian gut microbiota distinguished a higher Firmicutes/Bacteroidetes ratio in obese individuals compared to lean individuals. This ratio was estimated using a clonal Sanger sequencing approach which is time-consuming and requires laborious data analysis. In contrast, new high-throughput pyrosequencing technology offers an inexpensive alternative to clonal Sanger sequencing and would significantly advance our understanding of obesity via the development of a clinical diagnostic method. Here we present a cost-effective method that combines 16S rRNA pyrosequencing and DNA barcodes of the Firmicutes and Bacteroidetes 16S rRNA genes to determine the Firmicutes/Bacteroidetes ratio in the gut microbiota of obese humans. Results The main result was the identification of DNA barcodes targeting the Firmicutes and Bacteroidetes phyla. These barcodes were validated using previously published 16S rRNA gut microbiota clone libraries. In addition, an accurate F/B ratio was found when the DNA barcodes were applied to short pyrosequencing reads of published gut metagenomes. Finally, the barcodes were utilized to define the F/B ratio of 16S rRNA pyrosequencing data generated from brain abscess pus and cystic fibrosis sputum. Conclusion Using DNA barcodes of Bacteroidetes and Firmicutes 16S rRNA genes combined with pyrosequencing is a cost-effective method for monitoring relevant changes in the relative abundance of Firmicutes and Bacteroidetes bacterial communities in microbial ecosystems.

Published
2008
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16. Adaptation Strategies to High Hydrostatic Pressures in Pseudothermotoga species Revealed by Transcriptional Analyses.

Author

Fenouil R, Pradel N, Belahbib H, Roumagnac M, Bartoli M, Ben Hania W, Denis Y, Garel M, Tamburini C, Ollivier B, Summers Z, Armougom F, and Dolla A

Abstract

Pseudothermotoga elfii strain DSM9442 and P. elfii subsp. lettingae strain DSM14385 are hyperthermophilic bacteria. P. elfii DSM9442 is a piezophile and was isolated from a depth of over 1600 m in an oil-producing well in Africa. P. elfii subsp. lettingae is piezotolerant and was isolated from a thermophilic bioreactor fed with methanol as the sole carbon and energy source. In this study, we analyzed both strains at the genomic and transcriptomic levels, paying particular attention to changes in response to pressure increases. Transcriptomic analyses revealed common traits of adaptation to increasing hydrostatic pressure in both strains, namely, variations in transport membrane or carbohydrate metabolism, as well as species-specific adaptations such as variations in amino acid metabolism and transport for the deep P. elfii DSM9442 strain. Notably, this work highlights the central role played by the amino acid aspartate as a key intermediate of the pressure adaptation mechanisms in the deep strain P. elfii DSM9442. Our comparative genomic and transcriptomic analysis revealed a gene cluster involved in lipid metabolism that is specific to the deep strain and that was differentially expressed at high hydrostatic pressures and might, thus, be a good candidate for a piezophilic gene marker in Pseudothermotogales .

Published
2023
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17. Phage-Host Prediction Using a Computational Tool Coupled with 16S rRNA Gene Amplicon Sequencing.

Author

Andrianjakarivony HF, Bettarel Y, Armougom F, and Desnues C

Subjects
Cote d'Ivoire, Genes, rRNA, Metagenomics methods, Reproducibility of Results, RNA, Ribosomal, 16S genetics, Water, Bacteria genetics, Bacteria virology, Bacteriophages genetics
Abstract

Metagenomics studies have revealed tremendous viral diversity in aquatic environments. Yet, while the genomic data they have provided is extensive, it is unannotated. For example, most phage sequences lack accurate information about their bacterial host, which prevents reliable phage identification and the investigation of phage-host interactions. This study aimed to take this knowledge further, using a viral metagenomic framework to decipher the composition and diversity of phage communities and to predict their bacterial hosts. To this end, we used water and sediment samples collected from seven sites with varying contamination levels in the Ebrié Lagoon in Abidjan, Ivory Coast. The bacterial communities were characterized using the 16S rRNA metabarcoding approach, and a framework was developed to investigate the virome datasets that: (1) identified phage contigs with VirSorter and VIBRANT; (2) classified these contigs with MetaPhinder using the phage database (taxonomic annotation); and (3) predicted the phages' bacterial hosts with a machine learning-based tool: the Prokaryotic Virus-Host Predictor. The findings showed that the taxonomic profiles of phages and bacteria were specific to sediment or water samples. Phage sequences assigned to the Microviridae family were widespread in sediment samples, whereas phage sequences assigned to the Siphoviridae , Myoviridae and Podoviridae families were predominant in water samples. In terms of bacterial communities, the phyla Latescibacteria , Zixibacteria , Bacteroidetes , Acidobacteria , Calditrichaeota , Gemmatimonadetes , Cyanobacteria and Patescibacteria were most widespread in sediment samples, while the phyla Epsilonbacteraeota , Tenericutes , Margulisbacteria , Proteobacteria , Actinobacteria , Planctomycetes and Marinimicrobia were most prevalent in water samples. Significantly, the relative abundance of bacterial communities (at major phylum level) estimated by 16S rRNA metabarcoding and phage-host prediction were significantly similar. These results demonstrate the reliability of this novel approach for predicting the bacterial hosts of phages from shotgun metagenomic sequencing data., Competing Interests: The authors declare no conflict of interest.

Published
2022
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18. Comparative Metagenomics Highlight a Widespread Pathway Involved in Catabolism of Phosphonates in Marine and Terrestrial Serpentinizing Ecosystems.

Author

Frouin E, Lecoeuvre A, Armougom F, Schrenk MO, and Erauso G

Subjects
Metagenomics, Phosphorus, Methane, Organophosphonates, Microbiota genetics
Abstract

Serpentinizing hydrothermal systems result from water circulating into the subsurface and interacting with mantle-derived rocks notably near mid-ocean ridges or continental ophiolites. Serpentinization and associated reactions produce alkaline fluids enriched in molecular hydrogen, methane, and small organic molecules that are assumed to feed microbial inhabitants. In this study, we explored the relationships linking serpentinization to associated microbial communities by comparative metagenomics of serpentinite-hosted systems, basalt-hosted vents, and hot springs. The shallow Prony bay hydrothermal field (PBHF) microbiome appeared to be more related to those of ophiolitic sites than to the Lost City hydrothermal field (LCHF) microbiome, probably because of the meteoric origin of its fluid, like terrestrial alkaline springs. This study emphasized the ubiquitous importance of a set of genes involved in the catabolism of phosphonates and highly enriched in all serpentinizing sites compared to other ecosystems. Because most of the serpentinizing systems are depleted in inorganic phosphate, the abundance of genes involved in the carbon-phosphorus lyase pathway suggests that the phosphonates constitute a source of phosphorus in these ecosystems. Additionally, hydrocarbons such as methane, released upon phosphonate catabolism, may contribute to the overall budget of organic molecules in serpentinizing systems. IMPORTANCE This first comparative metagenomic study of serpentinite-hosted environments provides an objective framework to understand the functioning of these peculiar ecosystems. We showed a taxonomic similarity between the PBHF and other terrestrial serpentinite-hosted ecosystems. At the same time, the LCHF microbial community was closer to deep basalt-hosted hydrothermal fields than continental ophiolites, despite the influence of serpentinization. This study revealed shared functional capabilities among serpentinite-hosted ecosystems in response to environmental stress, the metabolism of abundant dihydrogen, and the metabolism of phosphorus. Our results are consistent with the generalized view of serpentinite environments but provide deeper insight into the array of factors that may control microbial activities in these ecosystems. Moreover, we show that metabolism of phosphonate is widespread among alkaline serpentinizing systems and could play a crucial role in phosphorus and methane biogeochemical cycles. This study opens a new line of investigation of the metabolism of reduced phosphorus compounds in serpentinizing environments.

Published
2022
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19. Mesopelagic microbial carbon production correlates with diversity across different marine particle fractions.

Author

Baumas CMJ, Le Moigne FAC, Garel M, Bhairy N, Guasco S, Riou V, Armougom F, Grossart HP, and Tamburini C

Subjects
Geologic Sediments, Heterotrophic Processes, Seawater, Ecosystem, Prokaryotic Cells
Abstract

The vertical flux of marine snow particles significantly reduces atmospheric carbon dioxide concentration. In the mesopelagic zone, a large proportion of the organic carbon carried by sinking particles dissipates thereby escaping long term sequestration. Particle associated prokaryotes are largely responsible for such organic carbon loss. However, links between this important ecosystem flux and ecological processes such as community development of prokaryotes on different particle fractions (sinking vs. non-sinking) are yet virtually unknown. This prevents accurate predictions of mesopelagic organic carbon loss in response to changing ocean dynamics. Using combined measurements of prokaryotic heterotrophic production rates and species richness in the North Atlantic, we reveal that carbon loss rates and associated microbial richness are drastically different with particle fractions. Our results demonstrate a strong negative correlation between prokaryotic carbon losses and species richness. Such a trend may be related to prokaryotes detaching from fast-sinking particles constantly enriching non-sinking associated communities in the mesopelagic zone. Existing global scale data suggest this negative correlation is a widespread feature of mesopelagic microbes.

Published
2021
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20. In situ observations and modelling revealed environmental factors favouring occurrence of Vibrio in microbiome of the pelagic Sargassum responsible for strandings.

Author

Michotey V, Blanfuné A, Chevalier C, Garel M, Diaz F, Berline L, Le Grand L, Armougom F, Guasco S, Ruitton S, Changeux T, Belloni B, Blanchot J, Ménard F, and Thibaut T

Subjects
Animals, Caribbean Region, Mexico, Seawater, West Indies, Microbiota, Sargassum, Vibrio
Abstract

Historically, pelagic Sargassum were only found in the Sargasso Sea. Since 2011, blooms were regularly observed in warmer water, further south. Their developments in Central Atlantic are associated with mass strandings on the coasts, causing important damages and potentially dispersion of new bacteria. Microbiomes associated with pelagic Sargassum were analysed at large scale in Central Atlantic and near Caribbean Islands with a focus on pathogenic bacteria. Vibrio appeared widely distributed among pelagic Sargassum microbiome of our samples with higher occurrence than previously found in Mexico Gulf. Six out the 16 Vibrio-OTUs (Operational Taxonomic Unit), representing 81.2 ± 13.1% of the sequences, felt in cluster containing pathogens. Among the four different microbial profiles of pelagic Sargassum microbiome, Vibrio attained about 2% in two profiles whereas it peaked, in the two others, at 6.5 and 26.8% respectively, largely above the concentrations found in seawater surrounding raft (0.5%). In addition to sampling and measurements, we performed backward Lagrangian modelling of trajectories of rafts, and rebuilt the sampled rafts environmental history allowing us to estimate Sargassum growth rates along raft displacements. We found that Vibrio was favoured by high Sargassum growth rate and in situ ammonium and nitrite, modelled phosphate and nitrate concentrations, whereas zooplankters, benthic copepods, and calm wind (proxy of raft buoyancy near the sea surface) were less favourable for them. Relations between Vibrio and other main bacterial groups identified a competition with Alteromonas. According to forward Lagrangian tracking, part of rafts containing Vibrio could strand on the Caribbean coasts, however the strong decreases of modelled Sargassum growth rates along this displacement suggest unfavourable environment for Vibrio. For the conditions and areas observed, the sanitary risk seemed in consequence minor, but in other areas or conditions where high Sargassum growth rate occurred near coasts, it could be more important., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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21. Responses to the Hydrostatic Pressure of Surface and Subsurface Strains of Pseudothermotoga elfii Revealing the Piezophilic Nature of the Strain Originating From an Oil-Producing Well.

Author

Roumagnac M, Pradel N, Bartoli M, Garel M, Jones AA, Armougom F, Fenouil R, Tamburini C, Ollivier B, Summers ZM, and Dolla A

Abstract

Microorganisms living in deep-oil reservoirs face extreme conditions of elevated temperature and hydrostatic pressure. Within these microbial communities, members of the order Thermotogales are predominant. Among them, the genus Pseudothermotoga is widespread in oilfield-produced waters. The growth and cell phenotypes under hydrostatic pressures ranging from 0.1 to 50 MPa of two strains from the same species originating from subsurface, Pseudothermotoga elfii DSM9442 isolated from a deep African oil-producing well, and surface, P. elfii subsp. lettingae isolated from a thermophilic sulfate-reducing bioreactor, environments are reported for the first time. The data support evidence for the piezophilic nature of P. elfii DSM9442, with an optimal hydrostatic pressure for growth of 20 MPa and an upper limit of 40 MPa, and the piezotolerance of P. elfii subsp. lettingae with growth occurring up to 20 MPa only. Under the experimental conditions, both strains produce mostly acetate and propionate as volatile fatty acids with slight variations with respect to the hydrostatic pressure for P. elfii DSM9442. The data show that the metabolism of P. elfii DSM9442 is optimized when grown at 20 MPa, in agreement with its piezophilic nature. Both Pseudothermotoga strains form chained cells when the hydrostatic pressure increases, especially P. elfii DSM9442 for which 44% of cells is chained when grown at 40 MPa. The viability of the chained cells increases with the increase in the hydrostatic pressure, indicating that chain formation is a protective mechanism for P. elfii DSM9442., Competing Interests: ZS and AJ were employed by the ExxonMobil Research and Engineering Company. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as potential conflicts of interest., (Copyright © 2020 Roumagnac, Pradel, Bartoli, Garel, Jones, Armougom, Fenouil, Tamburini, Ollivier, Summers and Dolla.)

Published
2020
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22. Prokaryotic Diversity and Distribution Along Physical and Nutrient Gradients in the Tunisian Coastal Waters (South Mediterranean Sea).

Author

Quéméneur M, Bel Hassen M, Armougom F, Khammeri Y, Lajnef R, and Bellaaj-Zouari A

Abstract

Prokaryotes play an important role in biogeochemical cycling in marine ecosystems, but little is known about their diversity and composition, and how they may contribute to the ecological functioning of coastal areas in the South Mediterranean Sea. This study investigated bacterial and archaeal community diversity in seawater samples along the Tunisian coast subject to important physicochemical disturbances. The 16S amplicon sequencing survey revealed higher prokaryotic diversity in the northern Tunisian bays than in southeastern waters (Gulf of Gabès). The major taxonomic groups identified in all samples were Alphaproteobacteria (40.9%), Gammaproteobacteria (18.7%), Marine Group II Euryarchaeota (11.3%), and Cyanobacteria (10.9%). Among them, the relative abundance of Alteromonadales , Prochlorococcus , and some clades of Pelagibacterales (SAR11) significantly differed between the northern and the southern bays, whereas no difference was observed across coastal waters in the archaeal Candidatus Poseidoniales (MGII), Synechococcus , and Pelagibacteraceae (SAR11 clade Ia), for which no relationship was observed with the environmental variables. Both Pseudoalteromonas and Alteromonas levels increased with the increasing salinity, density and nutrients (NH 4 + and/or PO 4 3- ) gradients detected toward the southern waters, while the SAR11 clades Ib and IV and Prochlorococcus , decreased in the shallow, salty and nutrient-rich coastal waters of the Gulf of Gabès. Rhodobacteraceae was positively correlated with Synechococcus and chlorophyll levels, suggesting a relationship with phytoplankton biomass. The present study provides the first insights into planktonic prokaryotic community composition in the South Mediterranean Sea through the analysis of Tunisian seawaters, which may support further investigations on the role of bacterioplankton in the biogeochemistry of these ecosystems., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Quéméneur, Bel Hassen, Armougom, Khammeri, Lajnef and Bellaaj-Zouari.)

Published
2020
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23. A novel Thermotoga strain TFO isolated from a Californian petroleum reservoir phylogenetically related to Thermotoga petrophila and T. naphthophila, two thermophilic anaerobic isolates from a Japanese reservoir: Taxonomic and genomic considerations.

Author

Summers ZM, Belahbib H, Pradel N, Bartoli M, Mishra P, Tamburini C, Dolla A, Ollivier B, and Armougom F

Subjects
Anaerobiosis, Bacterial Typing Techniques, California, DNA, Bacterial genetics, Fatty Acids chemistry, Glycolipids chemistry, Nucleic Acid Hybridization, Phospholipids chemistry, Sequence Analysis, DNA, Thermotoga isolation & purification, Petroleum microbiology, Phylogeny, Thermotoga classification
Abstract

Hot oil reservoirs harbor diverse microbial communities, with many of them inhabiting thermophilic or hyperthermophilic fermentative Thermotogae species. A new Thermotoga sp. strain TFO was isolated from an Californian offshore oil reservoir which is phylogenetically related to thermophilic species T. petrophila RKU-1 T and T. naphthophila RKU-10 T , isolated from the Kubiki oil reservoir in Japan. The average nucleotide identity and DNA-DNA hybridization measures provide evidence that the novel strain TFO is closely related to T. naphthophila RKU-10 T , T. petrophila RKU-1 T and can not be differentiated at the species level. In the light of these results, the reclassification of T. naphthophila RKU-10 and strain TFO as heterotypic synonyms of T. petrophila is proposed. A pangenomic survey of closely related species revealed 55 TFO strain-specific proteins, many of which being linked to glycosyltransferases and mobile genetic elements such as recombinases, transposases and prophage, which can contribute to genome evolution and plasticity, promoting bacterial diversification and adaptation to environmental changes. The discovery of a TFO-specific transport system dctPQM, encoding a tripartite ATP-independent periplasmic transporter (TRAP), has to be highlighted. The presence of this TRAP system assumes that it could assist in anaerobic n-alkane degradation by addition of fumarate dicarboxylic acid, suggesting a niche-specific gene pool which correlates with the oil reservoir that T. petrophila TFO inhabits. Finally, T. naphthophila RKU-10, T. petrophila RKU-1 T , T. petrophila TFO form a distinct phylogenetic lineage with different geographic origins, share the same type of ecological niche including the burial history of fields. Theses findings might support the indigenous character of this species in oil reservoirs., (Copyright © 2020. Published by Elsevier GmbH.)

Published
2020
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24. Pressure-Retaining Sampler and High-Pressure Systems to Study Deep-Sea Microbes Under in situ Conditions.

Author

Garel M, Bonin P, Martini S, Guasco S, Roumagnac M, Bhairy N, Armougom F, and Tamburini C

Abstract

The pelagic realm of the dark ocean is characterized by high hydrostatic pressure, low temperature, high-inorganic nutrients, and low organic carbon concentrations. Measurements of metabolic activities of bathypelagic bacteria are often underestimated due to the technological limitations in recovering samples and maintaining them under in situ environmental conditions. Moreover, most of the pressure-retaining samplers, developed by a number of different labs, able to maintain seawater samples at in situ pressure during recovery have remained at the prototype stage, and therefore not available to the scientific community. In this paper, we will describe a ready-to-use pressure-retaining sampler, which can be adapted to use on a CTD-carousel sampler. As well as being able to recover samples under in situ high pressure (up to 60 MPa) we propose a sample processing in equi-pressure mode. Using a piloted pressure generator, we present how to perform sub-sampling and transfer of samples in equi-pressure mode to obtain replicates and perform hyperbaric experiments safely and efficiently (with <2% pressure variability). As proof of concept, we describe a field application (prokaryotic activity measurements and incubation experiment) with samples collected at 3,000m-depth in the Mediterranean Sea. Sampling, sub-sampling, transfer, and incubations were performed under in situ high pressure conditions and compared to those performed following decompression and incubation at atmospheric pressure. Three successive incubations were made for each condition using direct dissolved-oxygen concentration measurements to determine the incubation times. Subsamples were collected at the end of each incubation to monitor the prokaryotic diversity, using 16S-rDNA/rRNA high-throughput sequencing. Our results demonstrated that oxygen consumption by prokaryotes is always higher under in situ conditions than after decompression and incubation at atmospheric pressure. In addition, over time, the variations in the prokaryotic community composition and structure are seen to be driven by the different experimental conditions. Finally, within samples maintained under in situ high pressure conditions, the active (16S rRNA) prokaryotic community was dominated by sequences affiliated with rare families containing piezophilic isolates, such as Oceanospirillaceae or Colwelliaceae. These results demonstrate the biological importance of maintaining in situ conditions during and after sampling in deep-sea environments.

Published
2019
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25. Towards a congruent reclassification and nomenclature of the thermophilic species of the genus Pseudothermotoga within the order Thermotogales.

Author

Belahbib H, Summers ZM, Fardeau ML, Joseph M, Tamburini C, Dolla A, Ollivier B, and Armougom F

Subjects
Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Gram-Negative Anaerobic Straight, Curved, and Helical Rods genetics, Nucleic Acid Hybridization, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Temperature, Gram-Negative Anaerobic Straight, Curved, and Helical Rods classification, Phylogeny
Abstract

The phylum Thermotogae gathers thermophilic, hyperthermophic, mesophilic, and thermo-acidophilic anaerobic bacteria that are mostly originated from geothermally heated environments. The metabolic and phenotypic properties harbored by the Thermotogae species questions the evolutionary events driving the emergence of this early branch of the universal tree of life. Recent reshaping of the Thermotogae taxonomy has led to the description of a new genus, Pseudothermotoga, a sister group of the genus Thermotoga within the order Thermotogales. Comparative genomics of both Pseudothermotoga and Thermotoga spp., including 16S-rRNA-based phylogenetic, pan-genomic analysis as well as signature indel conservation, provided evidence that Thermotoga caldifontis and Thermotoga profunda species should be reclassified within the genus Pseudothermotoga and renamed as Pseudothermotoga caldifontis comb. nov. (type strain=AZM44c09 T ) and Pseudothermotoga profunda comb. nov. (type strain=AZM34c06 T ), respectively. In addition, based upon whole-genome relatedness indices and DNA-DNA Hybridization results, the reclassification of Pseudothermotoga lettingae and Pseudothermotoga subterranea as latter heterotypic synonyms of Pseudothermotoga elfii is proposed. Finally, potential genetic elements resulting from the distinct evolutionary story of the Thermotoga and Pseudothermotoga clades are discussed., (Copyright © 2018 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published
2018
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26. Abundance and diversity of prokaryotes in ephemeral hypersaline lake Chott El Jerid using Illumina Miseq sequencing, DGGE and qPCR assays.

Author

Ben Abdallah M, Karray F, Kallel N, Armougom F, Mhiri N, Quéméneur M, Cayol JL, Erauso G, and Sayadi S

Subjects
Archaea classification, Archaea genetics, Archaea isolation & purification, Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Extreme Environments, Lakes chemistry, Lakes microbiology, Microbiota, Salinity
Abstract

Chott El Jerid is the largest hypersaline ephemeral lake in southern Tunisian Sahara desert and is one of the biggest depressions at the North of Africa. This study aimed to investigate the diversity and abundance of microbial communities inhabiting Chott El Jerid during wet season (when it was flooded), using molecular methods [Illumina Miseq sequencing, DGGE and qPCR (qPCR)]. 16S rRNA gene analyses revealed that bacterial community was dominated by Proteobacteria (especially Ralstonia species), followed by Firmicutes, Bacteroidetes, Cyanobacteria, Actinobacteria and Verrucomicrobia. The results obtained using prokaryotic universal primers showed low relative abundance of Archaea dominated by few OTUs related to Methanosarcinaceae and Methanomassiliicoccaceae families and the presence of sulfate-reducing Archaea affiliated with Archaeoglobus. However, the results obtained using Archaea-specific primers showed that archaeal community was mainly composed of aerobic Halobacteria (especially Halorubrum species) and anaerobic members of Methanomicrobia. These results also provided evidence for the presence of members of the genus Halohasta in this environment. qPCR results revealed that Archaea were more abundant in studied samples than Bacteria. The sulfate-reducing Bacteria were also found abundant (~ one-third of the bacterial community) and outnumbered methanogens, suggesting their potential important role in this sulfate-rich and hypersaline ecosystem.

Published
2018
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27. The nature of the electron acceptor (MnIV/NO3) triggers the differential expression of genes associated with stress and ammonium limitation responses in Shewanella algae C6G3.

Author

Aigle A, Bonin P, Fernandez-Nunez N, Loriod B, Guasco S, Bergon A, Armougom F, Iobbi-Nivol C, Imbert J, and Michotey V

Subjects
Bacterial Proteins metabolism, Catalase genetics, Catalase metabolism, Electron Transport, Electrons, Peroxidase genetics, Peroxidase metabolism, Shewanella genetics, Shewanella growth & development, Ammonium Compounds metabolism, Gene Expression Regulation, Bacterial, Manganese Compounds metabolism, Nitrates metabolism, Oxides metabolism, Shewanella metabolism
Abstract

Shewanella algae C6G3 can dissimilatively reduce nitrate into ammonium and manganese oxide (MnIV) into MnII. It has the unusual ability to anaerobically produce nitrite from ammonium in the presence of MnIV. To gain insight into their metabolic capabilities, global mRNA expression patterns were investigated by RNA-seq and qRT-PCR in cells growing with lactate and ammonium as carbon and nitrogen sources, and with either MnIV or nitrate as electron acceptors. Genes exhibiting higher expression levels in the presence of MnIV belonged to functional categories of carbohydrate, coenzyme, lipid metabolisms and inorganic ion transport. The comparative transcriptomic pattern between MnIV and NO3 revealed that the strain presented an ammonium limitation status with MnIV, despite the presence of a non-limiting concentration of ammonium under both culture conditions. In addition, in the presence of MnIV, ntrB/nrtC regulators, ammonium channel, nitrogen regulatory protein P-II, glutamine synthetase and asparagine synthetase glutamine-dependent genes were over-represented. Under the nitrate condition, the expression of genes involved in the synthesis of several amino acids was increased. Finally, the expression level of genes associated with the general stress response was also amplified in both conditions and among them, katE, a putative catalase/peroxidase present on several Shewanella genomes, was highly expressed with a median value relatively higher in the MnIV condition.

Published
2018
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28. Salinity shifts in marine sediment: Importance of number of fluctuation rather than their intensities on bacterial denitrifying community.

Author

Zaghmouri I, Michotey VD, Armougom F, Guasco S, and Bonin PC

Subjects
Bacteria metabolism, Denitrification, Geologic Sediments microbiology, Salinity
Abstract

The sensitivity of denitrifying community to salinity fluctuations was studied in microcosms filled with marine coastal sediments subjected to different salinity disturbances over time (sediment under frequent salinity changes vs sediment with "stable" salinity pattern). Upon short-term salinity shift, denitrification rate and denitrifiers abundance showed high resistance whatever the sediment origin is. Denitrifying community adapted to frequent salinity changes showed high resistance when salinity increases, with a dynamic nosZ relative expression level. Marine sediment denitrifying community, characterized by more stable pattern, was less resistant when salinity decreases. However, after two successive variations of salinity, it shifted toward the characteristic community of fluctuating conditions, with larger proportion of Pseudomonas-nosZ, exhibiting an increase of nosZ relative expression level. The impact of long-term salinity variation upon bacterial community was confirmed at ribosomal level with a higher percentage of Pseudomonas and lower proportion of nosZII clade genera., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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29. Diversity of Rare and Abundant Prokaryotic Phylotypes in the Prony Hydrothermal Field and Comparison with Other Serpentinite-Hosted Ecosystems.

Author

Frouin E, Bes M, Ollivier B, Quéméneur M, Postec A, Debroas D, Armougom F, and Erauso G

Abstract

The Bay of Prony, South of New Caledonia, represents a unique serpentinite-hosted hydrothermal field due to its coastal situation. It harbors both submarine and intertidal active sites, discharging hydrogen- and methane-rich alkaline fluids of low salinity and mild temperature through porous carbonate edifices. In this study, we have extensively investigated the bacterial and archaeal communities inhabiting the hydrothermal chimneys from one intertidal and three submarine sites by 16S rRNA gene amplicon sequencing. We show that the bacterial community of the intertidal site is clearly distinct from that of the submarine sites with species distribution patterns driven by only a few abundant populations, affiliated to the Chloroflexi and Proteobacteria phyla. In contrast, the distribution of archaeal taxa seems less site-dependent, as exemplified by the co-occurrence, in both submarine and intertidal sites, of two dominant phylotypes of Methanosarcinales previously thought to be restricted to serpentinizing systems, either marine (Lost City Hydrothermal Field) or terrestrial (The Cedars ultrabasic springs). Over 70% of the phylotypes were rare and included, among others, all those affiliated to candidate divisions. We finally compared the distribution of bacterial and archaeal phylotypes of Prony Hydrothermal Field with those of five previously studied serpentinizing systems of geographically distant sites. Although sensu stricto no core microbial community was identified, a few uncultivated lineages, notably within the archaeal order Methanosarcinales and the bacterial class Dehalococcoidia (the candidate division MSBL5) were exclusively found in a few serpentinizing systems while other operational taxonomic units belonging to the orders Clostridiales, Thermoanaerobacterales , or the genus Hydrogenophaga , were abundantly distributed in several sites. These lineages may represent taxonomic signatures of serpentinizing ecosystems. These findings extend our current knowledge of the microbial diversity inhabiting serpentinizing systems and their biogeography.

Published
2018
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30. Obligate sugar oxidation in Mesotoga spp., phylum Thermotogae, in the presence of either elemental sulfur or hydrogenotrophic sulfate-reducers as electron acceptor.

Author

Fadhlaoui K, Ben Hania W, Armougom F, Bartoli M, Fardeau ML, Erauso G, Brasseur G, Aubert C, Hamdi M, Brochier-Armanet C, Dolla A, and Ollivier B

Subjects
Coculture Techniques, Fermentation physiology, Gram-Negative Anaerobic Straight, Curved, and Helical Rods growth & development, Hydrogen metabolism, Oxidation-Reduction, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Sulfates metabolism, Sulfur metabolism, Carbohydrate Metabolism physiology, Desulfotomaculum metabolism, Desulfovibrio vulgaris metabolism, Gram-Negative Anaerobic Straight, Curved, and Helical Rods metabolism, Sugars metabolism, Symbiosis physiology
Abstract

Mesotoga prima strain PhosAc3 is a mesophilic representative of the phylum Thermotogae comprising only fermentative bacteria so far. We show that while unable to ferment glucose, this bacterium is able to couple its oxidation to reduction of elemental sulfur. We demonstrate furthermore that M. prima strain PhosAc3 as well as M. prima strain MesG1 and Mesotoga infera are able to grow in syntrophic association with sulfate-reducing bacteria (SRB) acting as hydrogen scavengers through interspecies hydrogen transfer. Hydrogen production was higher in M. prima strain PhosAc3 cells co-cultured with SRB than in cells cultured alone in the presence of elemental sulfur. We propose that the efficient sugar-oxidizing metabolism by M. prima strain PhosAc3 in syntrophic association with a hydrogenotrophic sulfate-reducing bacterium can be extrapolated to all members of the Mesotoga genus. Genome comparison of Thermotogae members suggests that the metabolic difference between Mesotoga and Thermotoga species (sugar oxidation versus fermentation) is mainly due to the absence of the bifurcating [FeFe]-hydrogenase in the former. Such an obligate oxidative process for using sugars, unusual within prokaryotes, is the first reported within the Thermotogae. It is hypothesized to be of primary ecological importance for growth of Mesotoga spp. in the environments that they inhabit., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2018
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31. Microbial Diversity in Sulfate-Reducing Marine Sediment Enrichment Cultures Associated with Anaerobic Biotransformation of Coastal Stockpiled Phosphogypsum (Sfax, Tunisia).

Author

Zouch H, Karray F, Armougom F, Chifflet S, Hirschler-Réa A, Kharrat H, Kamoun L, Ben Hania W, Ollivier B, Sayadi S, and Quéméneur M

Abstract

Anaerobic biotechnology using sulfate-reducing bacteria (SRB) is a promising alternative for reducing long-term stockpiling of phosphogypsum (PG), an acidic (pH ~3) by-product of the phosphate fertilizer industries containing high amounts of sulfate. The main objective of this study was to evaluate, for the first time, the diversity and ability of anaerobic marine microorganisms to convert sulfate from PG into sulfide, in order to look for marine SRB of biotechnological interest. A series of sulfate-reducing enrichment cultures were performed using different electron donors (i.e., acetate, formate, or lactate) and sulfate sources (i.e., sodium sulfate or PG) as electron acceptors. Significant sulfide production was observed from enrichment cultures inoculated with marine sediments, collected near the effluent discharge point of a Tunisian fertilizer industry (Sfax, Tunisia). Sulfate sources impacted sulfide production rates from marine sediments as well as the diversity of SRB species belonging to Deltaproteobacteria . When PG was used as sulfate source, Desulfovibrio species dominated microbial communities of marine sediments, while Desulfobacter species were mainly detected using sodium sulfate. Sulfide production was also affected depending on the electron donor used, with the highest production obtained using formate. In contrast, low sulfide production (acetate-containing cultures) was associated with an increase in the population of Firmicutes . These results suggested that marine Desulfovibrio species, to be further isolated, are potential candidates for bioremediation of PG by immobilizing metals and metalloids thanks to sulfide production by these SRB.

Published
2017
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32. Dental pulp as a source of low-contaminated DNA.

Author

Drancourt M, Aboudharam G, Croce O, Armougom F, Robert C, and Raoult D

Subjects
Animals, Computational Biology, DNA chemistry, DNA genetics, Dogs, High-Throughput Nucleotide Sequencing, Humans, Sequence Analysis, DNA, DNA isolation & purification, Dental Pulp chemistry, Fossils, Molecular Biology methods, Paleontology methods
Abstract

The in-laboratory contamination of the ancient samples hinders the result interpretation of the investigations in the field of paleomicrobiology. We had promoted the dental pulp as a sample that limits the risks of in-laboratory contamination of the ancient material. In this work, we measured the contamination of the dental pulp manipulated according to paleomicrobiology protocol, used as a source of a total DNA for metagenomics. First, total DNA extracted from two dog canines was sequenced using next generation sequencing. This yielded a total of 487,828 trimmed reads with a length of 227 ± 35 bp. Sequence analysis of the final dataset using Blast algorithm search and stringent thresholds for sequence identity and coverage against a database including both Canis lupus familiaris and Homo sapiens complete genomes showed that 95% of reads were assigned to C. familiaris whereas 0.03% was assigned to H. sapiens. In a second step, two teeth collected from two 12th century mammals were manipulated following the same protocol. A total of 13,890 trimmed reads with a 157 ± 67 bp length yielded 0-0.35% reads assigned to H. sapiens. This study indicates that the dental pulp is a useful for detecting the significant nucleic sequences in both modern and ancient samples., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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33. Glycans affect DNA extraction and induce substantial differences in gut metagenomic studies.

Author

Angelakis E, Bachar D, Henrissat B, Armougom F, Audoly G, Lagier JC, Robert C, and Raoult D

Subjects
Bacteria genetics, DNA, Bacterial genetics, Feces microbiology, Female, High-Throughput Nucleotide Sequencing, Humans, Kwashiorkor microbiology, Obesity microbiology, Polysaccharides, Bacterial chemistry, Protein-Energy Malnutrition microbiology, DNA, Bacterial isolation & purification, Gastrointestinal Microbiome genetics, Metagenomics, Polysaccharides chemistry
Abstract

Exopolysaccharides produced by bacterial species and present in feces are extremely inhibitory to DNA restriction and can cause discrepancies in metagenomic studies. We determined the effects of different DNA extraction methods on the apparent composition of the gut microbiota using Illumina MiSeq deep sequencing technology. DNA was extracted from the stool from an obese female using 10 different methods and the choice of DNA extraction method affected the proportional abundance at the phylum level, species richness (Chao index, 227 to 2,714) and diversity (non parametric Shannon, 1.37 to 4.4). Moreover DNA was extracted from stools obtained from 83 different individuals by the fastest extraction assay and by an extraction assay that degradated exopolysaccharides. The fastest extraction method was able to detect 68% to 100% genera and 42% to 95% species whereas the glycan degradation extraction method was able to detect 56% to 93% genera and 25% to 87% species. To allow a good liberation of DNA from exopolysaccharides commonly presented in stools, we recommend the mechanical lysis of stools plus glycan degradation, used here for the first time. Caution must be taken in the interpretation of current metagenomic studies, as the efficiency of DNA extraction varies widely among stool samples.

Published
2016
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34. Increased Gut Redox and Depletion of Anaerobic and Methanogenic Prokaryotes in Severe Acute Malnutrition.

Author

Million M, Tidjani Alou M, Khelaifia S, Bachar D, Lagier JC, Dione N, Brah S, Hugon P, Lombard V, Armougom F, Fromonot J, Robert C, Michelle C, Diallo A, Fabre A, Guieu R, Sokhna C, Henrissat B, Parola P, and Raoult D

Subjects
Asia, Bacteria genetics, Bacterial Load, Child, Child, Preschool, Humans, Metagenomics, Niger, Oxidation-Reduction, Senegal, Sequence Analysis, DNA, Bacteria classification, Dysbiosis etiology, Gastrointestinal Microbiome, Gastrointestinal Tract microbiology, Gastrointestinal Tract pathology, Severe Acute Malnutrition complications
Abstract

Severe acute malnutrition (SAM) is associated with inadequate diet, low levels of plasma antioxidants and gut microbiota alterations. The link between gut redox and microbial alterations, however, remains unexplored. By sequencing the gut microbiomes of 79 children of varying nutritional status from three centers in Senegal and Niger, we found a dramatic depletion of obligate anaerobes in malnutrition. This was confirmed in an individual patient data meta-analysis including 107 cases and 77 controls from 5 different African and Asian countries. Specifically, several species of the Bacteroidaceae, Eubacteriaceae, Lachnospiraceae and Ruminococceae families were consistently depleted while Enterococcus faecalis, Escherichia coli and Staphylococcus aureus were consistently enriched. Further analyses on our samples revealed increased fecal redox potential, decreased total bacterial number and dramatic Methanobrevibacter smithii depletion. Indeed, M. smithii was detected in more than half of the controls but in none of the cases. No causality was demonstrated but, based on our results, we propose a unifying theory linking microbiota specificity, lacking anaerobes and archaea, to low antioxidant nutrients, and lower food conversion.

Published
2016
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35. Genomic Insights into a New Citrobacter koseri Strain Revealed Gene Exchanges with the Virulence-Associated Yersinia pestis pPCP1 Plasmid.

Author

Armougom F, Bitam I, Croce O, Merhej V, Barassi L, Nguyen TT, La Scola B, and Raoult D

Abstract

The history of infectious diseases raised the plague as one of the most devastating for human beings. Far too often considered an ancient disease, the frequent resurgence of the plague has led to consider it as a reemerging disease in Madagascar, Algeria, Libya, and Congo. The genetic factors associated with the pathogenicity of Yersinia pestis, the causative agent of the plague, involve the acquisition of the pPCP1 plasmid that promotes host invasion through the expression of the virulence factor Pla. The surveillance of plague foci after the 2003 outbreak in Algeria resulted in a positive detection of the specific pla gene of Y. pestis in rodents. However, the phenotypic characterization of the isolate identified a Citrobacter koseri. The comparative genomics of our sequenced C. koseri URMITE genome revealed a mosaic gene structure resulting from the lifestyle of our isolate and provided evidence for gene exchanges with different enteric bacteria. The most striking was the acquisition of a continuous 2 kb genomic fragment containing the virulence factor Pla of the Y. pestis pPCP1 plasmid; however, the subcutaneous injection of the CKU strain in mice did not produce any pathogenic effect. Our findings demonstrate that fast molecular detection of plague using solely the pla gene is unsuitable and should rather require Y. pestis gene marker combinations. We also suggest that the evolutionary force that might govern the expression of pathogenicity can occur through the acquisition of virulence genes but could also require the loss or the inactivation of resident genes such as antivirulence genes.

Published
2016
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36. A Metagenomic Investigation of the Duodenal Microbiota Reveals Links with Obesity.

Author

Angelakis E, Armougom F, Carrière F, Bachar D, Laugier R, Lagier JC, Robert C, Michelle C, Henrissat B, and Raoult D

Subjects
Adult, Biodiversity, Cluster Analysis, DNA Barcoding, Taxonomic, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, RNA, Ribosomal, 16S genetics, Duodenum microbiology, Gastrointestinal Microbiome, Metagenome, Obesity epidemiology, Obesity etiology
Abstract

Background: Few studies have tested the small intestine microbiota in humans, where most nutrient digestion and absorption occur. Here, our objective was to examine the duodenal microbiota between obese and normal volunteers using metagenomic techniques., Methodology/principal Findings: We tested duodenal samples from five obese and five normal volunteers using 16S rDNA V6 pyrosequencing and Illumina MiSeq deep sequencing. The predominant phyla of the duodenal microbiota were Firmicutes and Actinobacteria, whereas Bacteroidetes were absent. Obese individuals had a significant increase in anaerobic genera (p < 0.001) and a higher abundance of genes encoding Acyl-CoA dehydrogenase (p = 0.0018) compared to the control group. Obese individuals also had a reduced abundance of genes encoding sucrose phosphorylase (p = 0.015) and 1,4-alpha-glucan branching enzyme (p = 0.05). Normal weight people had significantly increased FabK (p = 0.027), and the glycerophospholipid metabolism pathway revealed the presence of phospholipase A1 only in the control group (p = 0.05)., Conclusions/significance: The duodenal microbiota of obese individuals exhibit alterations in the fatty acid and sucrose breakdown pathways, probably induced by diet imbalance.

Published
2015
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37. Culturomics and pyrosequencing evidence of the reduction in gut microbiota diversity in patients with broad-spectrum antibiotics.

Author

Dubourg G, Lagier JC, Robert C, Armougom F, Hugon P, Metidji S, Dione N, Dangui NP, Pfleiderer A, Abrahao J, Musso D, Papazian L, Brouqui P, Bibi F, Yasir M, Vialettes B, and Raoult D

Subjects
Adolescent, Adult, Bacteria chemistry, Bacteria growth & development, Bacterial Load, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Feces microbiology, Female, Humans, Male, Middle Aged, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Young Adult, Anti-Bacterial Agents therapeutic use, Bacteria classification, Bacteria drug effects, Biota drug effects, Gastrointestinal Tract microbiology
Abstract

The human gut flora is currently widely characterised using molecular techniques. Microbial culturomics (large-scale culture conditions with identification of colonies using MALDI-TOF or 16S rRNA) is part of the rebirth of bacterial culture that was initiated by environmental microbiologists for the design of axenic culture for intracellular bacteria in clinical microbiology. Culturomics was performed on four stool samples from patients treated with large-scale antibiotics to assess the diversity of their gut flora in comparison with other culture-dependent studies. Pyrosequencing of the V6 region was also performed and was compared with a control group. Gut richness was also estimated by bacterial counting after microscopic observation. In total, 77 culture conditions were tested and 32,000 different colonies were generated; 190 bacterial species were identified, with 9 species that had not been isolated from the human gut before this study, 7 newly described in humans and 8 completely new species. A dramatic reduction in diversity was observed for two of the four stool samples for which antibiotic treatment was prolonged and uninterrupted. The total number of bacteria was generally preserved, suggesting that the original population was replaced but was sustained in size. Discordances between culture and pyrosequencing biodiversity biomarkers highlight the depth of bias of molecular studies. Stool samples studied showed a dramatic reduction in bacterial diversity. Considering the variable antibiotic concentration in the gut, this reduction in the number of species is possibly linked to the production of bacteriocin in the upper digestive tract by specific bacteria, such as Lactobacillus spp., (Copyright © 2014 Elsevier B.V. and the International Society of Chemotherapy. All rights reserved.)

Published
2014
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38. Identification of bacterial strains isolated from the Mediterranean Sea exhibiting different abilities of biofilm formation.

Author

Brian-Jaisson F, Ortalo-Magné A, Guentas-Dombrowsky L, Armougom F, Blache Y, and Molmeret M

Subjects
Bacteria isolation & purification, Bacterial Adhesion, DNA, Bacterial genetics, Ecosystem, France, Mediterranean Sea, Nucleic Acid Hybridization, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacteria classification, Biofilms, Phylogeny, Seawater microbiology
Abstract

The Mediterranean Sea has rarely been investigated for the characterization of marine bacteria as compared to other marine environments such as the Atlantic or Pacific Ocean. Bacteria recovered from inert surfaces are poorly studied in these environments, when it has been shown that the community structure of attached bacteria can be dissimilar from that of planktonic bacteria present in the water column. The objectives of this study were to identify and characterize marine bacteria isolated from biofilms developed on inert surfaces immersed in the Mediterranean Sea and to evaluate their capacity to form a biofilm in vitro. Here, 13 marine bacterial strains have been isolated from different supports immersed in seawater in the Bay of Toulon (France). Phylogenetic analysis and different biological and physico-chemical properties have been investigated. Among the 13 strains recovered, 8 different genera and 12 different species were identified including 2 isolates of a novel bacterial species that we named Persicivirga mediterranea and whose genus had never been isolated from the Mediterranean Sea. Shewanella sp. and Pseudoalteromonas sp. were the most preponderant genera recovered in our conditions. The phenotypical characterization revealed that one isolate belonging to the Polaribacter genus differed from all the other ones by its hydrophobic properties and poor ability to form biofilms in vitro. Identifying and characterizing species isolated from seawater including from Mediterranean ecosystems could be helpful for example, to understand some aspects of bacterial biodiversity and to further study the mechanisms of biofilm (and biofouling) development in conditions approaching those of the marine environment.

Published
2014
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39. Abnormal weight gain and gut microbiota modifications are side effects of long-term doxycycline and hydroxychloroquine treatment.

Author

Angelakis E, Million M, Kankoe S, Lagier JC, Armougom F, Giorgi R, and Raoult D

Subjects
Adult, Aged, Body Mass Index, Body Weight drug effects, Endocarditis, Bacterial complications, Escherichia coli, Female, Gastrointestinal Tract microbiology, Humans, Lactobacillus, Male, Middle Aged, Q Fever complications, Weight Gain drug effects, Anti-Infective Agents therapeutic use, Doxycycline therapeutic use, Endocarditis, Bacterial microbiology, Hydroxychloroquine therapeutic use, Microbiota drug effects, Q Fever drug therapy
Abstract

Doxycycline has been proposed for the treatment of malnourished children in developing countries, and its use has been associated with weight gain in healthy volunteers. No previous studies have assessed abnormal weight gain as a putative side effect of long-term doxycycline treatment; thus, the objective of the present study was to characterize this phenomenon. We also analyzed the role of the gut microbiota in this effect. We assessed changes in the body mass index in Q fever endocarditis patients treated with doxycycline and hydroxychloroquine and healthy individuals with no antibiotic treatment. Abnormal weight gain was defined as a gain in weight above that of the controls. The fecal samples were examined using molecular assays for Methanobrevibacter smithii, Bacteroidetes, Firmicutes, Escherichia coli, Lactobacillus, Lactobacillus reuteri, and total bacterial concentrations. We examined 82 patients, including 48 patients with Q fever endocarditis and 34 controls. Approximately 23% of the treated patients showed abnormal weight gain (P = 0.001). Patients treated with doxycycline and hydroxychloroquine presented significantly lower concentrations of Bacteroidetes (P = 0.002), Firmicutes (P = 0.01), and Lactobacillus (P = 0.02). The linear regression analysis revealed that the duration of treatment was significantly associated with a decrease in Bacteroidetes (P = 0.0001), Firmicutes (P = 0.002), and total bacteria (P < 0.00001). Abnormal weight gain is a side effect of long-term doxycycline and hydroxychloroquine treatment. Gut microbiota modifications at the phylum level could play an instrumental role in this effect. We highlight the need for specific nutritional care in patients undergoing long-term antibiotic treatment, particularly treatment involving the use of doxycycline., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published
2014
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40. [Gut microbiota and digestion of polysaccharides].

Author

El Kaoutari A, Armougom F, Raoult D, and Henrissat B

Subjects
Animals, Bacteria metabolism, Fermentation physiology, Gastrointestinal Tract metabolism, Humans, Hydrolysis, Intestinal Mucosa metabolism, Intestines microbiology, Digestion physiology, Gastrointestinal Tract microbiology, Microbiota physiology, Polysaccharides metabolism
Abstract

The distal gut microbiota corresponds to all the microorganisms, essentially bacteria, that reside commonly in the colon. The microbial population is characterized by a large taxonomical diversity, counting approximately a thousand distinct bacterial species for a single individual. The pace of investigations of this microbial system has greatly accelerated these last few years, fuelled by the advent of metagenomics techniques, which do not rely on bacterial cultivation, but utilize high throughput DNA sequencing. In just a few years studies of the intestinal microbiota have become fashionable, albeit with often contradictory results when attempting to correlate changes in microbial composition to diverse pathologies. The article focuses on one of the essential functions of the distal gut microbiota: the digestion of the immense variety of polysaccharides from our diet that enzymes of the host cannot breakdown., (© 2014 médecine/sciences – Inserm.)

Published
2014
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41. Polyphasic analysis of a middle ages coprolite microbiota, Belgium.

Author

Appelt S, Armougom F, Le Bailly M, Robert C, and Drancourt M

Subjects
Actinobacteria genetics, Belgium, Chlamydia genetics, Metagenome genetics, Proteobacteria genetics, RNA, Ribosomal, 16S genetics, Metagenomics methods, Microbiota physiology
Abstract

Paleomicrobiological investigations of a 14(th)-century coprolite found inside a barrel in Namur, Belgium were done using microscopy, a culture-dependent approach and metagenomics. Results were confirmed by ad hoc PCR--sequencing. Investigations yielded evidence for flora from ancient environment preserved inside the coprolite, indicated by microscopic observation of amoebal cysts, plant fibers, seeds, pollens and mold remains. Seventeen different bacterial species were cultured from the coprolite, mixing organisms known to originate from the environment and organisms known to be gut inhabitants. Metagenomic analyses yielded 107,470 reads, of which known sequences (31.9%) comprised 98.98% bacterial, 0.52% eukaryotic, 0.44% archaeal and 0.06% viral assigned reads. Most abundant bacterial phyla were Proteobacteria, Gemmatimonadetes, Actinobacteria and Bacteroidetes. The 16 S rRNA gene dataset yielded 132,000 trimmed reads and 673 Operational Taxonomic Units. Most abundant bacterial phyla observed in the 16 S rRNA gene dataset belonged to Proteobacteria, Firmicutes, Actinobacteria and Chlamydia. The Namur coprolite yielded typical gut microbiota inhabitants, intestinal parasites Trichuris and Ascaris and systemic pathogens Bartonella and Bordetella. This study adds knowledge to gut microbiota in medieval times.

Published
2014
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42. Development and validation of a microarray for the investigation of the CAZymes encoded by the human gut microbiome.

Author

El Kaoutari A, Armougom F, Leroy Q, Vialettes B, Million M, Raoult D, and Henrissat B

Subjects
Adult, Aged, Anorexia genetics, Anorexia microbiology, Bacteria classification, Bacteria genetics, Case-Control Studies, DNA, Bacterial genetics, Feces chemistry, Feces microbiology, Female, Gastrointestinal Tract microbiology, Glycoside Hydrolases isolation & purification, Glycoside Hydrolases metabolism, Humans, Male, Middle Aged, Obesity genetics, Obesity microbiology, Oligonucleotide Array Sequence Analysis, Polysaccharide-Lyases isolation & purification, Polysaccharide-Lyases metabolism, Real-Time Polymerase Chain Reaction, Thinness genetics, Thinness microbiology, Young Adult, Bacteria enzymology, Biomarkers metabolism, Gastrointestinal Tract metabolism, Gene Expression Profiling, Glycoside Hydrolases genetics, Metagenome, Polysaccharide-Lyases genetics
Abstract

Distal gut bacteria play a pivotal role in the digestion of dietary polysaccharides by producing a large number of carbohydrate-active enzymes (CAZymes) that the host otherwise does not produce. We report here the design of a custom microarray that we used to spot non-redundant DNA probes for more than 6,500 genes encoding glycoside hydrolases and lyases selected from 174 reference genomes from distal gut bacteria. The custom microarray was tested and validated by the hybridization of bacterial DNA extracted from the stool samples of lean, obese and anorexic individuals. Our results suggest that a microarray-based study can detect genes from low-abundance bacteria better than metagenomic-based studies. A striking example was the finding that a gene encoding a GH6-family cellulase was present in all subjects examined, whereas metagenomic studies have consistently failed to detect this gene in both human and animal gut microbiomes. In addition, an examination of eight stool samples allowed the identification of a corresponding CAZome core containing 46 families of glycoside hydrolases and polysaccharide lyases, which suggests the functional stability of the gut microbiota despite large taxonomical variations between individuals.

Published
2013
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43. Molecular diversity of the Planctomycetes in the human gut microbiota in France and Senegal.

Author

Cayrou C, Sambe B, Armougom F, Raoult D, and Drancourt M

Subjects
Base Sequence, Feces microbiology, France, Humans, Molecular Sequence Data, Polymerase Chain Reaction, Senegal, Sensitivity and Specificity, Intestines microbiology, Microbiota genetics, Planctomycetales genetics
Abstract

Until now, Planctomycetes bacteria were considered as environmental organisms. Nevertheless, some studies detected Planctomycetes DNA from human gut. We therefore explored the human gut Planctomycetes content. Planctomycetes-specific PCR primers were designed to amplify a 240-bp 16S rRNA gene fragment in human stool specimens from individuals in France and in Senegal and from endocarditis patients receiving antibiotics in France. PCR products were then cloned and sequenced. PCR detection revealed a significantly higher prevalence (1.8% vs 0.4%, p = 0.05) and higher diversity (62 vs 6 phylotypes, p = 0.02) of Planctomycetes 16S rRNA gene in stool specimens collected in Senegal than in France. Also, stool specimens from endocarditis patients exhibited non-significantly higher prevalence (0.6% vs 0.4%) and the ratio of phylotypes by positive patient (3 vs 1.5) than those collected from untreated French individuals. Gemmata sp. related sequences were found in 6/12 individuals. Planctomycetes organisms are a part of the human digestive tract microbiota. Their diversity varied by environment including the geographical origin of the individual and antibiotics treatment., (© 2013 APMIS Published by John Wiley & Sons Ltd.)

Published
2013
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44. The abundance and variety of carbohydrate-active enzymes in the human gut microbiota.

Author

El Kaoutari A, Armougom F, Gordon JI, Raoult D, and Henrissat B

Subjects
Bacteria classification, Bacteria genetics, Gastrointestinal Tract enzymology, Glycoside Hydrolases isolation & purification, Glycoside Hydrolases metabolism, Glycosyltransferases isolation & purification, Glycosyltransferases metabolism, Humans, Polysaccharide-Lyases isolation & purification, Polysaccharide-Lyases metabolism, Bacteria enzymology, Gastrointestinal Tract microbiology, Metagenome
Abstract

Descriptions of the microbial communities that live on and in the human body have progressed at a spectacular rate over the past 5 years, fuelled primarily by highly parallel DNA-sequencing technologies and associated advances in bioinformatics, and by the expectation that understanding how to manipulate the structure and functions of our microbiota will allow us to affect health and prevent or treat diseases. Among the myriad of genes that have been identified in the human gut microbiome, those that encode carbohydrate-active enzymes (CAZymes) are of particular interest, as these enzymes are required to digest most of our complex repertoire of dietary polysaccharides. In this Analysis article, we examine the carbohydrate-digestive capacity of a simplified but representative mini-microbiome in order to highlight the abundance and variety of bacterial CAZymes that are represented in the human gut microbiota.

Published
2013
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45. Evidence of the megavirome in humans.

Author

Colson P, Fancello L, Gimenez G, Armougom F, Desnues C, Fournous G, Yoosuf N, Million M, La Scola B, and Raoult D

Subjects
Amino Acid Sequence, Cluster Analysis, DNA Viruses classification, DNA, Viral chemistry, DNA, Viral genetics, Humans, Male, Metagenomics methods, Molecular Sequence Data, Phylogeny, Senegal, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Young Adult, DNA Viruses genetics, DNA Viruses isolation & purification, Gastrointestinal Tract virology, Genome, Viral, Microbiota
Abstract

Background: Megavirales is a proposed new virus order composed of Mimivirus, Marseillevirus and closely related viruses, as well as members of the families Poxviridae, Iridoviridae, Ascoviridae, Phycodnaviridae and Asfarviridae. The Megavirales virome, which we refer to as the megavirome, has been largely neglected until now because of the use of technical procedures that have jeopardized the discovery of giant viruses, particularly the use of filters with pore sizes in the 0.2-0.45-μm range. Concurrently, there has been accumulating evidence supporting the role of Mimivirus, discovered while investigating a pneumonia outbreak using amoebal coculture, as a causative agent in pneumonia., Objectives: In this paper, we describe the detection of sequences related to Mimivirus and Marseillevirus in the gut microbiota from a young Senegalese man. We also searched for sequences related to Megavirales in human metagenomes publicly available in sequence databases., Results: We serendipitously detected Mimivirus- and Marseillevirus-like sequences while using a new metagenomic approach targeting bacterial DNA that subsequently led to the isolation of a new member of the family Marseilleviridae, named Senegalvirus, from human stools. This discovery demonstrates the possibility of the presence of giant viruses of amoebae in humans. In addition, we detected sequences related to Megavirales members in several human metagenomes, which adds to previous findings by several groups., Conclusions: Overall, we present convergent evidence of the presence of mimiviruses and marseilleviruses in humans. Our findings suggest that we should re-evaluate the human megavirome and investigate the prevalence, diversity and potential pathogenicity of giant viruses in humans., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published
2013
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46. High-level colonisation of the human gut by Verrucomicrobia following broad-spectrum antibiotic treatment.

Author

Dubourg G, Lagier JC, Armougom F, Robert C, Audoly G, Papazian L, and Raoult D

Subjects
Adult, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Feces microbiology, Humans, In Situ Hybridization, Fluorescence, Male, Microscopy, Middle Aged, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Anti-Bacterial Agents therapeutic use, Gastrointestinal Tract microbiology, Metagenome drug effects, Verrucomicrobia isolation & purification
Abstract

The gut microbiota is mainly composed of the phyla Firmicutes, Bacteroidetes, Actinobacteria and Proteobacteria; the Verrucomicrobia phylum is occasionally observed. Antibiotics can change the bacterial diversity of the gut, with limited changes in the proportions of phyla. In this study, the gut repertoire of two patients who received a broad-spectrum antibiotic regimen was studied. As part of a large gut microbiota study, two stool samples were analysed: one sample was collected after broad-spectrum antibiotic therapy in a patient with Coxiella burnetii vascular infection (Patient A); and the other sample was collected from a patient admitted to the Intensive Care Unit (Patient B). Samples were subjected to Gram staining, electron microscopy, 16S rRNA V6 amplicon pyrosequencing and fluorescence in situ hybridisation (FISH). In parallel, the antibiotic susceptibility of Akkermansia muciniphila Muc(T) strain was studied and this strain was observed by electron microscopy. Pyrosequencing revealed that a large proportion of the sequences were associated with Verrucomicrobia (proportions of 44.9% and 84.6% for Patients A and B, respectively). All of the phylotypes were represented by a single species (A. muciniphila), and neither patient presented significant gastrointestinal disorders. Electron microscopy and FISH with specific Verrucomicrobia probes confirmed the presence of the bacterium. The Muc(T) strain was susceptible to imipenem and doxycycline but resistant to vancomycin and metronidazole. Dramatic colonisation of the human gut microbiota by the Verrucomicrobia phylum following a broad-spectrum antibiotic regimen occurred without significant gastrointestinal manifestations, suggesting that influenced by external factors such as antibiotics, the gut repertoire remains partially unknown., (Copyright © 2012 Elsevier B.V. and the International Society of Chemotherapy. All rights reserved.)

Published
2013
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47. Human gut microbiota: repertoire and variations.

Author

Lagier JC, Million M, Hugon P, Armougom F, and Raoult D

Subjects
Archaea classification, Archaea isolation & purification, Bacteria classification, Bacteria isolation & purification, Eukaryota classification, Eukaryota isolation & purification, Genomics methods, Humans, Proteomics methods, Viruses classification, Viruses isolation & purification, Biota, Gastrointestinal Tract microbiology, Microbiota
Abstract

The composition of human gut microbiota and their relationship with the host and, consequently, with human health and disease, presents several challenges to microbiologists. Originally dominated by culture-dependent methods for exploring this ecosystem, the advent of molecular tools has revolutionized our ability to investigate these relationships. However, many biases that have led to contradictory results have been identified. Microbial culturomics, a recent concept based on a use of several culture conditions with identification by MALDI-TOF followed by the genome sequencing of the new species cultured had allowed a complementarity with metagenomics. Culturomics allowed to isolate 31 new bacterial species, the largest human virus, the largest bacteria, and the largest Archaea from human. Moreover, some members of this ecosystem, such as Eukaryotes, giant viruses, Archaea, and Planctomycetes, have been neglected by the majority of studies. In addition, numerous factors, such as age, geographic provenance, dietary habits, antibiotics, or probiotics, can influence the composition of the microbiota. Finally, in addition to the countless biases associated with the study techniques, a considerable limitation to the interpretation of studies of human gut microbiota is associated with funding sources and transparency disclosures. In the future, studies independent of food industry funding and using complementary methods from a broad range of both culture-based and molecular tools will increase our knowledge of the repertoire of this complex ecosystem and host-microbiota mutualism.

Published
2012
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48. Genome sequence of Lactobacillus ingluviei, a bacterium associated with weight gain in animals.

Author

Merhej V, Armougom F, Robert C, and Raoult D

Subjects
Animals, Lactobacillus isolation & purification, Mice, Molecular Sequence Data, Struthioniformes microbiology, Weight Gain, DNA, Bacterial chemistry, DNA, Bacterial genetics, Genome, Bacterial, Lactobacillus genetics, Sequence Analysis, DNA
Abstract

We report the draft genome sequence of Lactobacillus ingluviei strain Autruche 4 (CSURP209) isolated from an ostrich. L. ingluviei is associated with weight gain in mice. This genome sequence may help us understand the obesity-induced mechanisms of intestinal bacteria.

Published
2012
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49. Comparative meta-analysis of the effect of Lactobacillus species on weight gain in humans and animals.

Author

Million M, Angelakis E, Paul M, Armougom F, Leibovici L, and Raoult D

Subjects
Animals, Humans, Obesity microbiology, Obesity physiopathology, Probiotics administration & dosage, Randomized Controlled Trials as Topic, Species Specificity, Weight Loss, Lactobacillus physiology, Obesity drug therapy, Obesity veterinary, Weight Gain
Abstract

Background: Obesity is associated with alteration of the gut microbiota. In order to clarify the effect of Lactobacillus-containing probiotics (LCP) on weight we performed a meta-analysis of clinical studies and experimental models. We intended to assess effects by Lactobacillus species., Methods: A broad search with no date or language restriction was performed. We included randomized controlled trials (RCTs) and comparative clinical studies in humans and animals or experimental models assessing the effect of Lactobacillus-containing probiotics on weight. We primarily attempted to extract and use change from baseline values. Data were extracted independently by two authors. Results were pooled by host and by Lactobacillus species and are summarized in a meta-analysis of standardized difference in means (SMDs)., Results: We identified and included 17 RCTs in humans, 51 studies on farm animals and 14 experimental models. Lactobacillus acidophilus administration resulted in significant weight gain in humans and in animals (SMD 0.15; 95% confidence intervals 0.05-0.25). Results were consistent in humans and animals. Lactobacillus fermentum and Lactobacillus ingluviei were associated with weight gain in animals. Lactobacillus plantarum was associated with weight loss in animals and Lactobacillus gasseri was associated with weight loss both in obese humans and in animals., Conclusions: Different Lactobacillus species are associated different effects on weight change that are host-specific. Further studies are needed to clarify the role of Lactobacillus species in the human energy harvest and weight regulation. Attention should be drawn to the potential effects of commonly marketed lactobacillus-containing probiotics on weight gain., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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50. Non-contiguous finished genome sequence and description of Alistipes timonensis sp. nov.

Author

Lagier JC, Armougom F, Mishra AK, Nguyen TT, Raoult D, and Fournier PE

Abstract

Alistipes timonensis strain JC136(T) sp. nov. is the type strain of A. timonensis sp. nov., a new species within the genus Alistipes. This strain, whose genome is described here, was isolated from the fecal flora of a healthy patient. A. timonensis is an obligate anaerobic rod. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 3,497,779 bp long genome (one chromosome but no plasmid) contains 2,742 protein-coding and 50 RNA genes, including three rRNA genes.

Published
2012
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