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1. Le champ hydrothermal hyperalcalin de la baie du Prony

Author

Pelletier, Bernard, Erauso, G., Gérard, E., Menez, B., Monnin, C., Payri, C., Postec, A., Price, R., Quéméneur, M., and Géoazur, Publications

Subjects
[SDU] Sciences of the Universe [physics], [SDU.STU] Sciences of the Universe [physics]/Earth Sciences
Published
2021

2. Analysis of the first genome of a hyperthermophilic marine virus-like particle, PAV1, isolated from Prococcus abyssi

Author

Geslin, C., Galliard, M., Flament, D., Rouault, K., Le Romancer, M., Prieur, D., and Erauso, G.

Subjects
Genomes -- Analysis, Bacteria, Thermophilic -- Genetic aspects, Bacteria, Thermophilic -- Research, Circular DNA -- Research, Biological sciences
Abstract

Only one virus-like particle (VLP) has been reported from byperthermophilic Euryarchaeotes. This VLP, named PAY1, is shaped like a lemon and was isolated from a strain of 'Pyrococcus abyssi,' a deep-sea isolate. Its genome consists of a double-stranded circular DNA of 18 kb which is also present at a high copy number (60 per chromosome) free within the host cytoplasm but is not integrated into the host chromosome. Here, we report the results of complete analysis of the PAV1 genome. All the 25 predicted genes, except 3, are located on one DNA strand. A transcription map has been made by using a reverse transcription-PCR assay. All the identified open reading frames (ORFs) are transcribed. The most significant similarities relate to four ORFs. ORF 180a shows 31% identity with ORF 181 of the pRT1 plasmid isolated from Pyrococcus sp. strain JT1. ORFs 676 and 678 present similarities with a concanavalin A-like lectin/glucanase domain, which could be involved in the process of host-virus recognition, and ORF 59 presents similarities with the transcriptional regulator CopG. The genome of PAV1 displays unique features at the nucleic and proteinic level, indicating that PAV1 should be attached at least to a novel genus or virus family.

Published
2007

4. The low temperature hyperalkaline hydrothermal system of the Prony Bay (New Caledonia)

Author

Pelletier, B., Monnin, C., Boulart, C., Chavagnac, V., Erauso, G., Gerard, M., Gerard, E., Guentas, L., Menez, B., Payri, C., Pisapia, C., Postec, A., Quémeneur, M., Laboratoire Insulaire du Vivant et de l'Environnement (LIVE), and Université de la Nouvelle-Calédonie (UNC)

Subjects
010504 meteorology & atmospheric sciences, [SDV]Life Sciences [q-bio], [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, 010502 geochemistry & geophysics, 01 natural sciences, 6. Clean water, Hydrothermal circulation, Oceanography, 13. Climate action, 14. Life underwater, Bay, Geology, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences
Abstract

The terrestrial hyperalkaline springs of the Prony bay (southern lagoon, New Caledonia) have been known since the XIXth century, but a recent high resolution bathymetric survey of the seafloor has revealed the existence of numerous submarine structures similar to the well-known Aiguille de Prony, which are also the location of high pH fluid discharge into the lagoon. During the HYDROPRONY cruise (28 October to 13 November 2011) samples of waters, gases and concretions have been collected by scuba divers at underwater vents. Four of these sampling sites are located in the Prony bay at depths up to 50 m. One (Bain des Japonais spring) is also in the Prony Bay but uncovered at low tide and another (Rivière des Kaoris spring) is on land slightly above the seawater level at high tide. We report the chemical composition (Na, K, Ca, Mg, Cl, SO4, Dissolved Inorganic Carbon, SiO2(aq)) of 45 water samples collected at 6 sites of high pH water discharge, as well as the composition of gases. Temperatures reach 37 °C at the Bain des Japonais and 32 °C at the spring of the Kaoris. Gas bubbling was observed only at these two springs. The emitted gases contain between 12 and 30% of hydrogen in volume of dry gas, 6 to 14% of methane, and 56 to 72% of nitrogen, with trace amounts of carbon dioxide, ethane and propane. pH values and salinities of all the 45 collected water samples range from the seawater values (8.2 and 35 g L−1) to hyperalkaline freshwaters of the Ca-OH type (pH 11 and salinities as low as 0.3 g L−1) showing that the collected samples are always a mixture of a hyperalkaline fluid of meteoric origin and ambient seawater. Cl-normalized concentrations of dissolved major elements first show that the Bain des Japonais is distinct from the other sites. Waters collected at this site are three component mixtures involving the high pH fluid, the lagoon seawater and the river water from the nearby Rivière du Carénage. The chemical compositions of the hyperalkaline end members (at pH 11) are not significantly different from one site to the other although the sites are several km away from each other and are located on different ultramafic substrata. The very low salinity of the hyperalkaline end members shows that seawater does not percolate through the ultramafic formation. Mixing of the hyperalkaline hydrothermal end member with local seawater produces large ranges and very sharp gradients of pH, salinity and dissolved element concentrations. There is a major change in the composition of the water samples at a pH around 10, which delimitates the marine environment from the hyperalkaline environment. The redox potential evolves toward negative values at high pH indicative of the reducing conditions due to bubbling of the H2-rich gas. The calculation of the mineral saturation states carried out for the Na-K-Ca-Mg-Cl-SO4-DIC-SiO2-H2O system shows that this change is due to the onset of brucite formation. While the saturation state of the Ca-carbonates over the whole pH range is typical of that found in a normal marine environment, Mg- and Mg-Ca-carbonates (magnesite, hydromagnesite, huntite, dolomite) exhibit very large supersaturations with maximum values at pH around 10, very well marked for the Bain des Japonais, emphasizing the role of water mixing in mineral formation. The discharge of high pH waters of meteoric origin into the lagoon marine environment makes the hydrothermal system of the Prony bay unique compared to other low temperature serpentinizing environments such as Oman (fully continental) or Lost City (fully marine).

Published
2016

5. Vallitalea pronyensis sp nova, isolated from a marine alkaline hydrothermal chimney

Author

Ben Aissa, F., Postec, A., Erauso, G., Payri, Claude, Pelletier, Bernard, Hamdi, M., Ollivier, Bernard, and Fardeau, Marie-Laure

Abstract

A novel thermotolerant, anaerobic, Gram-stain-positive, spore-forming bacterium was isolated from a hydrothermal chimney in Prony Bay, New Caledonia. This strain, designated FatNl3(T), grew at 15-55 degrees C (optimum 30 degrees C) and at pH 5.8-8.9 (optimum 7.7). It was slightly halophilic, requiring at least 0.5% NaCl for growth (optimum 2.5-3.0 %), and was able to grow at up to 6% NaCl. Sulfate, thiosulfate, elemental sulfur, sulfite, nitrate and nitrite were not used as terminal electron acceptors. Growth of strain FatNl3(T) was inhibited in the presence of sulfite (2 mM) or nitrite (2 mM). Strain FatNl3(T) fermented cellobiose, glucose, mannose, maltose, sucrose, galactose, lactose, ribose, fructose, rhannnose, raffinose, xylose, yeast extract, peptone and biotrypticase. The main fermentation products from glucose metabolism were acetate, ethanol, H-2 and CO2. The predominant cellular fatty acids were iso-C-15:0 and anteiso-C-15:0. The main polar lipids consisted of diphosphatidylglycerol, phosphatidylglycerol, and unknown glycolipids and phospholipids. The G+C content of the genomic DNA was 36.6 mol%. On the basis of phylogenetic and physiological properties, strain FatNl3(T) (=DSM 25904=JCM 18391) belonging to the phylum Firmicutes, class Clostridia, order Clostridiales, is proposed as the type strain of a novel species of the genus Vallitalea, for which the name Vallitalea pronyensis sp. nov. is proposed.

Published
2014

6. Fluid chemistry of the low temperature hyperalkaline hydrothermal system of the Prony Bay (New Caledonia)

Author

Monnin, C., Chavagnac, V., Boulart, C., Ménez, C., Gérard, Martine, Gérard, E., Pisapia, C., Quéméneur, Marianne, Erauso, G., Postec, A., Guentas-Dombrowsky, Linda, Payri, Claude, and Pelletier, Bernard

Subjects
SALINITE, LAGON, EAU DE MER, GAZ, PH, MINERALISATION, SOURCE HYDROTHERMALE, SEL DISSOUS, POTENTIEL REDOX, TEMPERATURE, ELEMENT CHIMIQUE MAJEUR, COMPOSITION CHIMIQUE
Published
2014

7. Fluid chemistry of the low temperature hyperalkaline hydrothermal system of Prony Bay (New Caledonia)

Author

Monnin, C., Chavagnac, V., Boulart, C., Menez, B., Gerard, M., Gerard, E., Pisapia, C., Quemeneur, M., Erauso, G., Postec, A., Guentas-dombrowski, L., Payri, C., Pelletier, B., Monnin, C., Chavagnac, V., Boulart, C., Menez, B., Gerard, M., Gerard, E., Pisapia, C., Quemeneur, M., Erauso, G., Postec, A., Guentas-dombrowski, L., Payri, C., and Pelletier, B.

Abstract

The terrestrial hyperalkaline springs of Prony Bay (southern lagoon, New Caledonia) have been known since the nineteenth century, but a recent high-resolution bathymetric survey of the seafloor has revealed the existence of numerous submarine structures similar to the well-known Aiguille de Prony, which are also the location of high-pH fluid discharge into the lagoon. During the HYDROPRONY cruise (28 October to 13 November 2011), samples of waters, gases and concretions were collected by scuba divers at underwater vents. Four of these sampling sites are located in Prony Bay at depths up to 50 m. One (Bain des Japonais spring) is also in Prony Bay but uncovered at low tide and another (Rivière des Kaoris spring) is on land slightly above the seawater level at high tide. We report the chemical composition (Na, K, Ca, Mg, Cl, SO4, dissolved inorganic carbon, SiO2(aq)) of 45 water samples collected at six sites of high-pH water discharge, as well as the composition of gases. Temperatures reach 37 °C at the Bain des Japonais and 32 °C at the spring of the Kaoris. Gas bubbling was observed only at these two springs. The emitted gases contain between 12 and 30% of hydrogen in volume of dry gas, 6 to 14% of methane, and 56 to 72% of nitrogen, with trace amounts of carbon dioxide, ethane and propane. pH values and salinities of all the 45 collected water samples range from the seawater values (8.2 and 35 g L−1) to hyperalkaline freshwaters of the Ca-OH type (pH 11 and salinities as low as 0.3 g L−1) showing that the collected samples are always a mixture of a hyperalkaline fluid of meteoric origin and ambient seawater. Cl-normalized concentrations of dissolved major elements first show that the Bain des Japonais is distinct from the other sites. Water collected at this site are three component mixtures involving the high-pH fluid, the lagoon seawater and the river water from the nearby Rivière du Carénage. The chemical compositions of the hyperalkaline endmembers (at pH 11)

Published
2014
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11. The plasmid pGS5 from the hyperthermophilic archaeon Archaeoglobus profundus is negatively supercoiled

Author

Lopez-Garcia, P., Forterre, P., van der Oost, J., and Erauso, G.

Subjects
Microbiologie, Life Science, Microbiology, VLAG
Abstract

We present evidence that, in contrast to plasmids from other hyperthermophilic archaea, which are in the relaxed to positively supercoiled state, plasmid pGS5 (2.8 kb) from Archaeoglobus profundus is negatively supercoiled. This might be due to the presence of a gyrase introducing negative supercoils, since gyrase genes are present in the genome of its close relative A. fulgidus, and suggests that gyrase activity predominates over reverse gyrase whenever the two topoisomerases coexist in cells.

Published
2000

12. Completing the sequence of the Sulfolobus solfataricus P2 genome

Author

Sensen, C.W., Charlebois, R.L., Chow, C., Clausen, I.G., Curtis, B., Doolittle, W.F., Duguet, M., Erauso, G., Gaasterland, T., Garrett, R.A., and Gordon, P.

Subjects
MAGPIE, Microbiologie, Sulfolobus solfataricus, Microbiology, Archaea, VLAG, Genomic sequence
Published
1998

13. Two novel conjugative plasmids from a single strain of Sulfolobus

Author

Erauso, G., Stedman, K.M., van de Werken, H.J.G., Zillig, W., van der Oost, J., Erauso, G., Stedman, K.M., van de Werken, H.J.G., Zillig, W., and van der Oost, J.

Abstract

Two conjugative plasmids (CPs) were isolated and characterized from the same 'Sulfolobus islandicus' strain, SOG2/4, The plasmids were separated from each other and transferred into Sulfolobus soltataricus. One has a high copy number and is not stable (pSOG1) whereas the other has a low copy number and is stably maintained (pSOG2). Plasmid pSOG2 is the first Sulfolobus CP found to have these characteristics. The genomes of both pSOG plasmids have been sequenced and were compared to each other and the available Sulfolobus CPs. Interestingly, apart from a very well-conserved core, 70% of the pSOG 1 and pSOG2 genomes is largely different and composed of a mixture of genes that often resemble counterparts in previously described Sulfolobus CPs. However, about 20% of the predicted genes do not have known homologues, not even in other CPs. Unlike pSOG1, pSOG2 does not contain a gene for the highly conserved PIrA protein nor for obvious homologues of partitioning proteins. Unlike pNOB8 and pKEF9, both pSOG plasmids lack the so-called clustered regularly interspaced short palindrome repeats (CRISPRs). The sites of recombination between the two genomes can be explained by the presence of recombination motifs previously identified in other Sulfolobus CPs. Like other Sulfolobus CPs, the pSOG plasmids possess a gene encoding an integrase of the tyrosine recombinase family. This integrase probably mediates plasmid site-specific integration into the host chromosome at the highly conserved tRNA(Glu) loci.

Published
2006

14. The complete genome of the crenarchaeon Sulfolobus solfataricus P2.

Author

She, Qunxin, Singh, R.K., Confalonieri, F., Zivanovic, Y., Allard, G., Awayez, Mariana J., Chan-Weiher, C.C.-Y., Clausen, Ib Groth, Curtis, B.A., De Moors, A., Erauso, G., Fletcher, C., Gordon, P.M., Heikamp-de Jong, I., Jeffries, A.C., Kozera, C.J., Medina, N., Peng, Xu, Phan, Thi Ngoc Hoa, Redder, Peter Bastue, Schenk, M.E., Theriault, C., Tolstrup, N., Charlebois, R.L., Doolittle, W.F., Duguet, M., Gaasterland, T., Garret, Roger Antony, Ragan, M.A., Sensen, C.W., Van der Oost, J., She, Qunxin, Singh, R.K., Confalonieri, F., Zivanovic, Y., Allard, G., Awayez, Mariana J., Chan-Weiher, C.C.-Y., Clausen, Ib Groth, Curtis, B.A., De Moors, A., Erauso, G., Fletcher, C., Gordon, P.M., Heikamp-de Jong, I., Jeffries, A.C., Kozera, C.J., Medina, N., Peng, Xu, Phan, Thi Ngoc Hoa, Redder, Peter Bastue, Schenk, M.E., Theriault, C., Tolstrup, N., Charlebois, R.L., Doolittle, W.F., Duguet, M., Gaasterland, T., Garret, Roger Antony, Ragan, M.A., Sensen, C.W., and Van der Oost, J.

Published
2001

15. Gene content and organization of a 281-kbp contig from the genome of the extremely thermophilic archaeon, Sulfolobus solfataricus P2

Author

Charlebois, R.L., Singh, R.K., Chan-Weiher, C.C.-Y., Allard, G., Chow, C., Confalonieri, F., Curtis, B., Duguet, M., Erauso, G., Faguy, D., Gaasterland, T., Garrett, Roger Antony, Gordon, P., Jeffries, A.C., Kozera, C., Kushwaha, N., Lafleur, E., Medina, N., Peng, Xu, Penny, S.L., She, Qunxin, St. Jean, A., van der Oost, J., Young, F., Zivanovic, Y., Doolittle, W.F., Ragan, M.A., Sensen, C.W., Charlebois, R.L., Singh, R.K., Chan-Weiher, C.C.-Y., Allard, G., Chow, C., Confalonieri, F., Curtis, B., Duguet, M., Erauso, G., Faguy, D., Gaasterland, T., Garrett, Roger Antony, Gordon, P., Jeffries, A.C., Kozera, C., Kushwaha, N., Lafleur, E., Medina, N., Peng, Xu, Penny, S.L., She, Qunxin, St. Jean, A., van der Oost, J., Young, F., Zivanovic, Y., Doolittle, W.F., Ragan, M.A., and Sensen, C.W.

Published
2000

17. Genetic elements of Thermococcales

Author

Prieur, D., primary, Erauso, G., additional, Geslin, C., additional, Lucas, S., additional, Gaillard, M., additional, Bidault, A., additional, Mattenet, A.-C., additional, Rouault, K., additional, Flament, D., additional, Forterre, P., additional, and Le Romancer, M., additional

Published
2004
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19. Isolation and initial characterization of microorganisms from a shallow marine hydrothermal system, Vulcano (Italy)

Author

Galès Grégoire, Erauso Gaël, Canhiac Isabelle, Postec Anne, and Capasso Giorgio

Subjects
Environmental sciences, GE1-350
Abstract

Samples from Vulcano hydrothermal system were incubated at hot temperatures with various electron donors and acceptors in order to isolate and characterize strains belonging from this environment. Eighteen strains were isolated, from which three seemed to belong to new species according to their 16S rRNA sequence. These strains are under phenotypic and genotypic characterization. Cultivation of representative taxa from an environment helps understanding ecological functions of microbial groups in these environments. Although cultivation often fails to isolate all representative prokaryotic taxa, effort of cultivation still can achieve the recovery of poorly characterized microorganisms.

Published
2022
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26. Life in deep subsurface

Author

Galès Grégoire and Erauso Gaël

Subjects
Environmental sciences, GE1-350
Abstract

Life extends far deeper into the Earth's subsurface than presumed possible 30 years ago. In the past, it was assumed that life is a surface phenomenon, and that even “hardy prokaryotic types” are not capable of living deeper than tens of meters below the surface [1]. In the 1990s, it became apparent that genetically and metabolically diverse microbial communities existed under highly reducing conditions in the deep subsurface [2]. Today we know that life in the deep subsurface is ubiquitous and comprises a large proportion of the biomass on Earth [3]. Many questions concerning life in the deep remain unanswered. What is the lower depth limit of the deep biosphere? Which energy sources are fueling these communities? How are genetic diversity and functional activity linked to geochemical factors? What we know is that the deep subsurface is an extreme environment and that the microorganisms living here have developed numerous mechanisms to deal with high pressure and temperature, limited energy and nutrient availability, extreme acidity and alkalinity, metal toxicity, and radioactivity [4].

Published
2016
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27. Microbiology of shallow subsurface aquifer and carbonate rocks studied by culture-dependent and culture-independent methods. Preliminary results on an underground laboratory, the LSBB, Rustrel, France

Author

Galès Grégoire, Erauso Gaël, Cayol Jean-Luc, Navarro David, Boyer Daniel, and Micolau Gilles

Subjects
Environmental sciences, GE1-350
Abstract

We investigated the microbiology of a shallow subsurface site, the LSBB, located near Avignon. This site lies in carbonate rocks, belonging to the Urgonian facies. Rock, concrete and water samples were collected and directly transferred to the laboratory. Studies of microorganisms as pure cultures are the only way to get their real physiological properties. Nevertheless, microbiologists cannot cultivate and isolate the majority of microorganisms for several reasons, one being our lack of understanding of their minimal needs. Molecular studies, e.g. extraction and sequencing of the total nucleic acids present in an environment provide phylogenetic and metabolic information on uncultivated microorganisms. We performed aerobic and anaerobic culture with various electron acceptors and donors, searching for heterotrophic, methanogenic, sulphate- nitrate- and FeIII- reducing Prokaryotes. We also performed DNA extractions and PCR amplification of ribosomal RNA genes, to test if our protocols were adapted to this environment. Our results show that the LSBB galleries are colonized by a low diversity microbiote, with a strong influence of anthropogenic activities. Further studies will link the microorganisms biodiversity and the petrophysic properties of rocks.

Published
2016
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30. Marinitoga aeolica sp. nov., a novel thermophilic anaerobic heterotroph isolated from a shallow hydrothermal field of Panarea Island in the Aeolian archipelago, Italy.

Author

Postec A, Galès G, Prime AH, Bartoli M, Price RE, Vandecasteele C, and Erauso G

Subjects
Anaerobiosis, Phylogeny, RNA, Ribosomal, 16S genetics, Base Composition, Sequence Analysis, DNA, DNA, Bacterial genetics, Bacterial Typing Techniques, Italy, Fatty Acids chemistry
Abstract

A novel thermophilic strain, designated BP5-C20A T , was isolated from the shallow hydrothermal field of the Panarea island in the Aeolian archipelago close to Sicily, Italy. Cells are motile rods surrounded with a 'toga', Gram-stain-negative and display a straight to curved morphology during the exponential phase. Strain BP5-C20A T is thermophilic (optimum 55 °C), moderately acidophilic (optimum pH 5.6) and halotolerant (optimum 25 g l -1 NaCl). It can use yeast extract, peptone and tryptone. It uses the following carbohydrates: cellobiose, fructose, glucose, maltose, starch, sucrose and xylan. Elemental sulphur is used as an electron acceptor and reduced to hydrogen sulphide. The predominant cellular fatty acid is C 16 : 0 . Phylogenetic analysis showed that strain BP5-C20A T shared 97.3 % 16S rRNA gene sequence identity with the closest related species Marinitoga lauensis LG1 T . The complete genome of strain BP5-C20A T is 2.44 Mb in size with a G+C content of 27.3 mol%. The dDDH and ANI values between the genomes of strains BP5-C20A T and M. lauensis LG1 T are 31.0 and 85.70% respectively. Finally, from its physiological, metabolic and genomic characteristics, strain BP5-C20A T (=DSM 112332 T =JCM 39183 T ) is proposed as representative of a novel species of the genus Marinitoga named Marinitoga aeolica sp. nov. and belonging to the order Petrotogales , in the phylum Thermotogota .

Published
2023
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31. Metabolic challenges and key players in serpentinite-hosted microbial ecosystems.

Author

Popall RM, Postec A, Lecoeuvre A, Quéméneur M, and Erauso G

Abstract

Serpentinite-hosted systems are amongst the most challenging environments for life on Earth. Serpentinization, a geochemical alteration of exposed ultramafic rock, produces hydrothermal fluids enriched in abiotically derived hydrogen (H 2 ), methane (CH 4 ), and small organic molecules. The hyperalkaline pH of these fluids poses a great challenge for metabolic energy and nutrient acquisition, curbing the cellular membrane potential and limiting electron acceptor, carbon, and phosphorous availability. Nevertheless, serpentinization supports the growth of diverse microbial communities whose metabolic make-up might shed light on the beginning of life on Earth and potentially elsewhere. Here, we outline current hypotheses on metabolic energy production, carbon fixation, and nutrient acquisition in serpentinizing environments. A taxonomic survey is performed for each important metabolic function, highlighting potential key players such as H 2 and CH 4 cycling Serpentinimonas , Hydrogenophaga , Methanobacteriales , Methanosarcinales , and novel candidate phyla. Methodological biases of the available data and future approaches are discussed., 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 © 2023 Popall, Postec, Lecoeuvre, Quéméneur and Erauso.)

Published
2023
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32. Microbial taxa related to natural hydrogen and methane emissions in serpentinite-hosted hyperalkaline springs of New Caledonia.

Author

Quéméneur M, Mei N, Monnin C, Postec A, Guasco S, Jeanpert J, Maurizot P, Pelletier B, and Erauso G

Abstract

The southeastern part of New Caledonia main island (Grande Terre) is the location of a large ophiolitic formation that hosts several hyperalkaline springs discharging high pH (∼11) and warm (<40°C) fluids enriched in methane (CH 4 ) and hydrogen (H 2 ). These waters are produced by the serpentinization of the ultrabasic rock formations. Molecular surveys had previously revealed the prokaryotic diversity of some of these New Caledonian springs, especially from the submarine chimneys of Prony Bay hydrothermal field. Here we investigate the microbial community of hyperalkaline waters from on-land springs and their relationships with elevated concentrations of dissolved H 2 (21.1-721.3 μmol/L) and CH 4 (153.0-376.6 μmol/L). 16S rRNA gene analyses (metabarcoding and qPCR) provided evidence of abundant and diverse prokaryotic communities inhabiting hyperalkaline fluids at all the collected springs. The abundance of prokaryotes was positively correlated to the H 2 /CH 4 ratio. Prokaryotes consisted mainly of bacteria that use H 2 as an energy source, such as microaerophilic Hydrogenophaga / Serpentinimonas (detected in all sources on land) or anaerobic sulfate-reducing Desulfonatronum , which were exclusively found in the most reducing (E h ref H 2 ∼ -700 mV) and the most H 2 -enriched waters discharging at the intertidal spring of the Bain des Japonais. The relative abundance of a specific group of uncultured Methanosarcinales that thrive in serpentinization-driven ecosystems emitting H 2 , considered potential H 2 -consuming methanogens, was positively correlated with CH 4 concentrations, and negatively correlated to the relative abundance of methylotrophic Gammaproteobacteria. Firmicutes were also numerous in hyperalkaline waters, and their relative abundance (e.g., Gracilibacter or Dethiobacter ) was proportional to the dissolved H 2 concentrations, but their role in the H 2 budget remains to be assessed. The prokaryotic communities thriving in New Caledonia hyperalkaline waters are similar to those found in other serpentinite-hosted high-pH waters worldwide, such as Lost City (North Atlantic) and The Cedars (California)., 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 © 2023 Quéméneur, Mei, Monnin, Postec, Guasco, Jeanpert, Maurizot, Pelletier and Erauso.)

Published
2023
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33. Thermospira aquatica gen. nov., sp. nov., a novel thermophilic spirochete isolated from a Tunisian hot spring, and description of the novel family Thermospiraceae .

Author

Gam ZBA, Thioye A, Cayol JL, Postec A, Bartoli-Joseph M, Vandecasteele C, Erauso G, and Labat M

Subjects
Spirochaetales, Fatty Acids chemistry, RNA, Ribosomal, 16S genetics, Base Composition, Sodium Chloride, Phylogeny, Bacterial Typing Techniques, DNA, Bacterial genetics, Sequence Analysis, DNA, Hot Springs microbiology
Abstract

A novel thermophilic, anaerobic bacterium, strain F1F22 T , was isolated from hot spring water collected in northern Tunisia. The cells were non-motile, Gram-negative and helical with hooked ends, 0.5×10-32 µm in size. Growth of the strain was observed at 45-70 °C (optimum, 55 °C), in 0.0-1.0 % (w/v) NaCl (optimum without NaCl) and at pH 6.5-8.5 (optimum, pH 7.5). Yeast extract was required for growth, and the strain grew on glucose, sucrose and maltose. The major fatty acids were C 16:0 (40.2 %), iso-C 16: 0 (30.2 %) and C 16 :0 DMA (14.5 %). The genome consisted of a circular chromosome (2.5 Mb) containing 2672 predicted protein-encoding genes with a G+C content of 43.15 mol %. Based on a comparative 16S rRNA gene sequence analysis, strain F1F22 T formed a deeply branching lineage within the phylum Spirochaetota , class Spirochaetia , order Brevinematales , and had only low sequence similarity to other species of the phylum (lower than 83 %). Genome-based analysis of average nucleotide identity and digital DNA-DNA hybridization of strain F1F22 T with Treponema caldarium DSM 7334 T , Brevinema andersonii ATCC 43811 T and Spirochaeta thermophila DSM 6578 T showed values between 63.26 and 63.52 %, and between 20 and 25 %. Hence, we propose strain F1F22 T as a representative of a novel family ( Thermospiraceae fam. nov.), genus and species of Brevinematales : Thermospira aquatica gen. nov., sp. nov. (type strain F1F22 T =JCM 31314 T =DSM 101182 T ).

Published
2023
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34. Methanobacterium alkalithermotolerans sp. nov., a novel alkaliphilic and hydrogen-utilizing methanogen isolated from an alkaline geothermal spring (La Crouen, New Caledonia).

Author

Mei N, Postec A, Bartoli M, Vandecasteele C, Wils L, Gil L, Monnin C, Pelletier B, Erauso G, and Quéméneur M

Subjects
RNA, Ribosomal, 16S genetics, Phylogeny, Hydrogen, Base Composition, Sodium Chloride, Carbon Dioxide, Vancomycin, Novobiocin, New Caledonia, Sequence Analysis, DNA, DNA, Bacterial genetics, Bacterial Typing Techniques, Fatty Acids chemistry, Methane, Anti-Bacterial Agents, Ampicillin, Penicillins, Streptomycin, Nucleotides, Methanobacterium genetics, Hot Springs
Abstract

An anaerobic, hydrogenotrophic methane-producing archaeon was isolated from an alkaline thermal spring (42 °C, pH 9.0) in New Caledonia. This methanogen, designated strain CAN T , is alkaliphilic, thermotolerant, with Gram-positive staining non-motile cells. Strain CAN T grows autotrophically using hydrogen exclusively as an energy source and carbon dioxide as the sole carbon source (without the requirement of yeast extract or other organic compounds). It grows at 20-45 °C (optimum, 45 °C) and pH 7.3-9.7 (optimum, pH 9.0). NaCl is not required for growth (optimum 0 %) but is tolerated up to 1.5 %. It resists novobiocin, streptomycin and vancomycin but is inhibited by ampicillin and penicillin, among other antibiotics. The genome consists of a circular chromosome (2.2 Mb) containing 2126 predicted protein-encoding genes with a G+C content of 36.4 mol%. Phylogenetic analysis based on the 16S rRNA gene sequence indicated that strain CAN T is a member of the genus Methanobacterium , most closely related to the alkaliphilic Methanobacterium alcaliphilum WeN4 T with 98.5 % 16S rRNA gene sequence identity. The genomes of strain CAN T and M. alcaliphilum DSM 3459, sequenced in this study, share 71.6 % average nucleotide identity and 14.0 % digital DNA-DNA hybridization. Therefore, phylogenetic and physiological results indicate that strain CAN T represents a novel species, for which the name Methanobacterium alkalithermotolerans sp. nov. is proposed, and strain CAN T (=DSM 102889 T = JCM 31304 T ) is assigned as the type strain.

Published
2022
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35. 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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36. Procaryotic Diversity and Hydrogenotrophic Methanogenesis in an Alkaline Spring (La Crouen, New Caledonia).

Author

Quéméneur M, Mei N, Monnin C, Postec A, Wils L, Bartoli M, Guasco S, Pelletier B, and Erauso G

Abstract

(1) Background: The geothermal spring of La Crouen (New Caledonia) discharges warm (42 °C) alkaline water (pH~9) enriched in dissolved nitrogen with traces of methane, but its microbial diversity has not yet been studied. (2) Methods: Cultivation-dependent and -independent methods (e.g., Illumina sequencing and quantitative PCR based on 16S rRNA gene) were used to describe the prokaryotic diversity of this spring. (3) Results: Prokaryotes were mainly represented by Proteobacteria (57% on average), followed by Cyanobacteria, Chlorofexi, and Candidatus Gracilibacteria (GN02/BD1-5) (each > 5%). Both potential aerobes and anaerobes, as well as mesophilic and thermophilic microorganisms, were identified. Some of them had previously been detected in continental hyperalkaline springs found in serpentinizing environments (The Cedars, Samail, Voltri, and Zambales ophiolites). Gammaproteobacteria , Ca. Gracilibacteria and Thermotogae were significantly more abundant in spring water than in sediments. Potential chemolithotrophs mainly included beta- and gammaproteobacterial genera of sulfate-reducers ( Ca. Desulfobacillus), methylotrophs ( Methyloversatilis ) , sulfur-oxidizers ( Thiofaba, Thiovirga ), or hydrogen-oxidizers ( Hydrogenophaga ). Methanogens ( Methanobacteriales and Methanosarcinales ) were the dominant Archaea , as found in serpentinization-driven and deep subsurface ecosystems. A novel alkaliphilic hydrogenotrophic methanogen (strain CAN) belonging to the genus Methanobacterium was isolated, suggesting that hydrogenotrophic methanogenesis occurs at La Crouen.

Published
2021
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37. Alkalicella caledoniensis gen. nov., sp. nov., a novel alkaliphilic anaerobic bacterium isolated from 'La Crouen' alkaline thermal spring, New Caledonia.

Author

Quéméneur M, Erauso G, Bartoli M, Vandecasteele C, Wils L, Gil L, Monnin C, Pelletier B, and Postec A

Subjects
Anaerobiosis, Bacteria, Anaerobic classification, Bacteria, Anaerobic isolation & purification, Bacterial Typing Techniques, Base Composition, Clostridiales isolation & purification, DNA, Bacterial genetics, Fatty Acids chemistry, Fermentation, New Caledonia, Nucleic Acid Hybridization, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Clostridiales classification, Hot Springs microbiology, Phylogeny
Abstract

A novel anaerobic, alkaliphilic, mesophilic, Gram-stain-positive, endospore-forming bacterium was isolated from an alkaline thermal spring (42 °C, pH 9.0) in New Caledonia. This bacterium, designated strain LB2 T , grew at 25-50 °C (optimum, 37 °C) and pH 8.2-10.8 (optimum, pH 9.5). Added NaCl was not required for growth (optimum, 0-1 %) but was tolerated up to 7 %. Strain LB2 T utilized a limited range of substrates, such as peptone, pyruvate, yeast extract and xylose. End products detected from pyruvate fermentation were acetate and formate. Both ferric citrate and thiosulfate were used as electron acceptors. Elemental sulphur, nitrate, nitrite, fumarate, sulphate, sulfite and DMSO were not used as terminal electron acceptors. The two major cellular fatty acids were iso-C 15 : 0 and C 16 : 0 . The genome consists of a circular chromosome (3.7 Mb) containing 3626 predicted protein-encoding genes with a G+C content of 36.2 mol%. Phylogenetic analysis based on the 16S rRNA gene sequence indicated that the isolate is a member of the family Proteinivoraceae , order Clostridiales within the phylum Firmicutes . Strain LB2 T was most closely related to the thermophilic Anaerobranca gottschalkii LBS3 T (93.2 % 16S rRNA gene sequence identity). Genome-based analysis of average nucleotide identity and digital DNA-DNA hybridization of strain LB2 T with A. gottschalkii LBS3 T showed respective values of 70.8 and 13.4 %. Based on phylogenetic, genomic, chemotaxonomic and physiological properties, strain LB2 T is proposed to represent the first species of a novel genus, for which the name Alkalicella caledoniensis gen. nov., sp. nov. is proposed (type strain LB2 T =DSM 100588 T =JCM 30958 T ).

Published
2021
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38. Alkaliphilus serpentinus sp. nov. and Alkaliphilus pronyensis sp. nov., two novel anaerobic alkaliphilic species isolated from the serpentinite-hosted Prony Bay Hydrothermal Field (New Caledonia).

Author

Postec A, Quéméneur M, Lecoeuvre A, Chabert N, Joseph M, and Erauso G

Subjects
Anaerobiosis, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Ecosystem, Gram-Positive Endospore-Forming Rods isolation & purification, New Caledonia, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bays, Gram-Positive Endospore-Forming Rods classification, Phylogeny
Abstract

Two novel anaerobic alkaliphilic strains, designated as LacT T and LacV T , were isolated from the Prony Bay Hydrothermal Field (PBHF, New Caledonia). Cells were motile, Gram-positive, terminal endospore-forming rods, displaying a straight to curved morphology during the exponential phase. Strains LacT T and LacV T were mesophilic (optimum 30°C), moderately alkaliphilic (optimum pH 8.2 and 8.7, respectively) and halotolerant (optimum 2% and 2.5% NaCl, respectively). Both strains were able to ferment yeast extract, peptone and casamino acids, but only strain LacT T could use sugars (glucose, maltose and sucrose). Both strains disproportionated crotonate into acetate and butyrate. Phylogenetic analysis revealed that strains LacT T and LacV T shared 96.4% 16S rRNA gene sequence identity and were most closely related to A. peptidifermentans Z-7036, A. namsaraevii X-07-2 and A. hydrothermalis FatMR1 (95.7%-96.3%). Their genome size was of 3.29Mb for strain LacT T and 3.06Mb for strain LacV T with a G+C content of 36.0 and 33.9mol%, respectively. The ANI value between both strains was 73.2 %. Finally, strains LacT T (=DSM 100337=JCM 30643) and LacV T (=DSM 100017=JCM 30644) are proposed as two novel species of the genus Alkaliphilus, order Clostridiales, phylum Firmicutes, Alkaliphilus serpentinus sp. nov. and Alkaliphilus pronyensis sp. nov., respectively. The genomes of the three Alkaliphilus species isolated from PBHF were consistently detected in the PBHF chimney metagenomes, although at very low abundance, but not significantly in the metagenomes of other serpentinizing systems (marine or terrestrial) worldwide, suggesting they represent indigenous members of the PBHF microbial ecosystem., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published
2021
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39. The global distribution and evolutionary history of the pT26-2 archaeal plasmid family.

Author

Badel C, Erauso G, Gomez AL, Catchpole R, Gonnet M, Oberto J, Forterre P, and Da Cunha V

Subjects
Archaea classification, Archaea isolation & purification, Archaea metabolism, Phylogeny, Plasmids metabolism, Archaea genetics, Evolution, Molecular, Plasmids genetics
Abstract

Although plasmids play an important role in biological evolution, the number of plasmid families well-characterized in terms of geographical distribution and evolution remains limited, especially in archaea. Here, we describe the first systematic study of an archaeal plasmid family, the pT26-2 plasmid family. The in-depth analysis of the distribution, biogeography and host-plasmid co-evolution patterns of 26 integrated and 3 extrachromosomal plasmids of this plasmid family shows that they are widespread in Thermococcales and Methanococcales isolated from around the globe but are restricted to these two orders. All members of the family share seven core genes but employ different integration and replication strategies. Phylogenetic analysis of the core genes and CRISPR spacer distribution suggests that plasmids of the pT26-2 family evolved with their hosts independently in Thermococcales and Methanococcales, despite these hosts exhibiting similar geographic distribution. Remarkably, core genes are conserved even in integrated plasmids that have lost replication genes and/or replication origins suggesting that they may be beneficial for their hosts. We hypothesize that the core proteins encode for a novel type of DNA/protein transfer mechanism, explaining the widespread oceanic distribution of the pT26-2 plasmid family., (© 2019 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2019
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40. Hydrostatic Pressure Helps to Cultivate an Original Anaerobic Bacterium From the Atlantis Massif Subseafloor (IODP Expedition 357): Petrocella atlantisensis gen. nov. sp. nov.

Author

Quéméneur M, Erauso G, Frouin E, Zeghal E, Vandecasteele C, Ollivier B, Tamburini C, Garel M, Ménez B, and Postec A

Abstract

Rock-hosted subseafloor habitats are very challenging for life, and current knowledge about microorganisms inhabiting such lithic environments is still limited. This study explored the cultivable microbial diversity in anaerobic enrichment cultures from cores recovered during the International Ocean Discovery Program (IODP) Expedition 357 from the Atlantis Massif (Mid-Atlantic Ridge, 30°N). 16S rRNA gene survey of enrichment cultures grown at 10-25°C and pH 8.5 showed that Firmicutes and Proteobacteria were generally dominant. However, cultivable microbial diversity significantly differed depending on incubation at atmospheric pressure (0.1 MPa), or hydrostatic pressures (HP) mimicking the in situ pressure conditions (8.2 or 14.0 MPa). An original, strictly anaerobic bacterium designated 70B-A T was isolated from core M0070C-3R1 (1150 meter below sea level; 3.5 m below seafloor) only from cultures performed at 14.0 MPa. This strain named Petrocella atlantisensis is a novel species of a new genus within the newly described family Vallitaleaceae (order Clostridiales , phylum Firmicutes ). It is a mesophilic, moderately halotolerant and piezophilic chemoorganotroph, able to grow by fermentation of carbohydrates and proteinaceous compounds. Its 3.5 Mb genome contains numerous genes for ABC transporters of sugars and amino acids, and pathways for fermentation of mono- and di-saccharides and amino acids were identified. Genes encoding multimeric [FeFe] hydrogenases and a Rnf complex form the basis to explain hydrogen and energy production in strain 70B-A T . This study outlines the importance of using hydrostatic pressure in culture experiments for isolation and characterization of autochthonous piezophilic microorganisms from subseafloor rocks.

Published
2019
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41. 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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42. 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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43. 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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44. Mineralizing Filamentous Bacteria from the Prony Bay Hydrothermal Field Give New Insights into the Functioning of Serpentinization-Based Subseafloor Ecosystems.

Author

Pisapia C, Gérard E, Gérard M, Lecourt L, Lang SQ, Pelletier B, Payri CE, Monnin C, Guentas L, Postec A, Quéméneur M, Erauso G, and Ménez B

Abstract

Despite their potential importance as analogs of primitive microbial metabolisms, the knowledge of the structure and functioning of the deep ecosystems associated with serpentinizing environments is hampered by the lack of accessibility to relevant systems. These hyperalkaline environments are depleted in dissolved inorganic carbon (DIC), making the carbon sources and assimilation pathways in the associated ecosystems highly enigmatic. The Prony Bay Hydrothermal Field (PHF) is an active serpentinization site where, similar to Lost City (Mid-Atlantic Ridge), high-pH fluids rich in H 2 and CH 4 are discharged from carbonate chimneys at the seafloor, but in a shallower lagoonal environment. This study aimed to characterize the subsurface microbial ecology of this environment by focusing on the earliest stages of chimney construction, dominated by the discharge of hydrothermal fluids of subseafloor origin. By jointly examining the mineralogy and the microbial diversity of the conduits of juvenile edifices at the micrometric scale, we find a central role of uncultivated bacteria belonging to the Firmicutes in the ecology of the PHF. These bacteria, along with members of the phyla Acetothermia and Omnitrophica , are identified as the first chimneys inhabitants before archaeal Methanosarcinales . They are involved in the construction and early consolidation of the carbonate structures via organomineralization processes. Their predominance in the most juvenile and nascent hydrothermal chimneys, and their affiliation with environmental subsurface microorganisms, indicate that they are likely discharged with hydrothermal fluids from the subseafloor. They may thus be representative of endolithic serpentinization-based ecosystems, in an environment where DIC is limited. In contrast, heterotrophic and fermentative microorganisms may consume organic compounds from the abiotic by-products of serpentinization processes and/or from life in the deeper subsurface. We thus propose that the Firmicutes identified at PHF may have a versatile metabolism with the capability to use diverse organic compounds from biological or abiotic origin. From that perspective, this study sheds new light on the structure of deep microbial communities living at the energetic edge in serpentinites and may provide an alternative model of the earliest metabolisms.

Published
2017
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45. Serpentinicella alkaliphila gen. nov., sp. nov., a novel alkaliphilic anaerobic bacterium isolated from the serpentinite-hosted Prony hydrothermal field, New Caledonia.

Author

Mei N, Postec A, Erauso G, Joseph M, Pelletier B, Payri C, Ollivier B, and Quéméneur M

Subjects
Bacterial Typing Techniques, Base Composition, Bays, Clostridiales genetics, Clostridiales isolation & purification, DNA, Bacterial genetics, New Caledonia, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Clostridiales classification, Hydrothermal Vents microbiology, Phylogeny
Abstract

A novel anaerobic, alkaliphilic, Gram-stain-positive, spore-forming bacterium was isolated from a carbonaceous hydrothermal chimney in Prony Bay, New Caledonia. This bacterium, designated strain 3bT, grew at temperatures from 30 to 43 °C (optimum 37 °C) and at pH between 7.8 and 10.1 (optimum 9.5). Added NaCl was not required for growth (optimum 0-0.2 %, w/v), but was tolerated at up to 4 %. Yeast extract was required for growth. Strain 3bT utilized crotonate, lactate and pyruvate, but not sugars. Crotonate was dismutated to acetate and butyrate. Lactate was disproportionated to acetate and propionate. Pyruvate was degraded to acetate plus trace amounts of hydrogen. Growth on lactate was improved by the addition of fumarate, which was used as an electron acceptor and converted to succinate. Sulfate, thiosulfate, elemental sulfur, sulfite, nitrate, nitrite, FeCl3, Fe(III)-citrate, Fe(III)-EDTA, chromate, arsenate, selenate and DMSO were not used as terminal electron acceptors. The G+C content of the genomic DNA was 33.2 mol%. Phylogenetic analysis based on the 16S rRNA gene sequence indicated that the isolate is a member of the family Clostridiaceae, order Clostridiales within the phylum Firmicutes. Strain 3bT was most closely related to 'Alkaliphilus hydrothermalis' FatMR1T (92.2 % 16S rRNA gene sequence similarity), and was positioned approximately equidistantly between the genera Alkaliphilus, Anaerovirgula and Natronincola. On the basis of phylogenetic, genetic, chemotaxonomic and physiological properties, strain 3bT is proposed to represent a novel species of a new genus, for which the name Serpentinicella alkaliphila gen. nov., sp. nov. is proposed. The type strain of Serpentinicella alkaliphila is 3bT (=DSM 100013T=JCM 30645T).

Published
2016
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46. Metagenomic and PCR-Based Diversity Surveys of [FeFe]-Hydrogenases Combined with Isolation of Alkaliphilic Hydrogen-Producing Bacteria from the Serpentinite-Hosted Prony Hydrothermal Field, New Caledonia.

Author

Mei N, Postec A, Monnin C, Pelletier B, Payri CE, Ménez B, Frouin E, Ollivier B, Erauso G, and Quéméneur M

Abstract

High amounts of hydrogen are emitted in the serpentinite-hosted hydrothermal field of the Prony Bay (PHF, New Caledonia), where high-pH (~11), low-temperature (< 40°C), and low-salinity fluids are discharged in both intertidal and shallow submarine environments. In this study, we investigated the diversity and distribution of potentially hydrogen-producing bacteria in Prony hyperalkaline springs by using metagenomic analyses and different PCR-amplified DNA sequencing methods. The retrieved sequences of hydA genes, encoding the catalytic subunit of [FeFe]-hydrogenases and, used as a molecular marker of hydrogen-producing bacteria, were mainly related to those of Firmicutes and clustered into two distinct groups depending on sampling locations. Intertidal samples were dominated by new hydA sequences related to uncultured Firmicutes retrieved from paddy soils, while submarine samples were dominated by diverse hydA sequences affiliated with anaerobic and/or thermophilic submarine Firmicutes pertaining to the orders Thermoanaerobacterales or Clostridiales. The novelty and diversity of these [FeFe]-hydrogenases may reflect the unique environmental conditions prevailing in the PHF (i.e., high-pH, low-salt, mesothermic fluids). In addition, novel alkaliphilic hydrogen-producing Firmicutes (Clostridiales and Bacillales) were successfully isolated from both intertidal and submarine PHF chimney samples. Both molecular and cultivation-based data demonstrated the ability of Firmicutes originating from serpentinite-hosted environments to produce hydrogen by fermentation, potentially contributing to the molecular hydrogen balance in situ.

Published
2016
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47. Prokaryotic diversity in a Tunisian hypersaline lake, Chott El Jerid.

Author

Abdallah MB, Karray F, Mhiri N, Mei N, Quéméneur M, Cayol JL, Erauso G, Tholozan JL, Alazard D, and Sayadi S

Subjects
Archaea isolation & purification, Deinococcus isolation & purification, Firmicutes isolation & purification, Lakes chemistry, Proteobacteria isolation & purification, RNA, Ribosomal, 16S genetics, Thermus isolation & purification, Tunisia, Lakes microbiology, Microbiota, Salinity, Salt Tolerance
Abstract

Prokaryotic diversity was investigated in a Tunisian salt lake, Chott El Jerid, by quantitative real-time PCR, denaturing gradient gel electrophoresis (DGGE) fingerprinting methods targeting the 16S rRNA gene and culture-dependent methods. Two different samples S1-10 and S2-10 were taken from under the salt crust of Chott El Jerid in the dry season. DGGE analysis revealed that bacterial sequences were related to Firmicutes, Proteobacteria, unclassified bacteria, and Deinococcus-Thermus phyla. Anaerobic fermentative and sulfate-reducing bacteria were also detected in this ecosystem. Within the domain archaea, all sequences were affiliated to Euryarchaeota phylum. Quantitative real-time PCR showed that 16S rRNA gene copy numbers of bacteria was 5 × 10(6) DNA copies g(-1) whereas archaea varied between 5 × 10(5) and 10(6) DNA copies g(-1) in these samples. Eight anaerobic halophilic fermentative bacterial strains were isolated and affiliated with the species Halanaerobium alcaliphilum, Halanaerobium saccharolyticum, and Sporohalobacter salinus. These data showed an abundant and diverse microbial community detected in the hypersaline thalassohaline environment of Chott El Jerid.

Published
2016
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48. Endolithic microbial communities in carbonate precipitates from serpentinite-hosted hyperalkaline springs of the Voltri Massif (Ligurian Alps, Northern Italy).

Author

Quéméneur M, Palvadeau A, Postec A, Monnin C, Chavagnac V, Ollivier B, and Erauso G

Subjects
Base Sequence, Carbonates chemistry, Chemical Precipitation, Ecosystem, Environmental Microbiology, Italy, Microbial Consortia, Molecular Typing, Phylogeny, RNA, Ribosomal, 16S genetics, Salt Tolerance, Sequence Analysis, RNA, Archaea genetics, Bacteria genetics, Natural Springs microbiology
Abstract

The Voltri Massif is an ophiolitic complex located in the Ligurian Alps close to the city of Genova (Northern Italy) where several springs discharge high pH (up to 11.7), low salinity waters produced by the active serpentinization of the ultramafic basement. Mixing of these hyperalkaline waters with the river waters along with the uptake of atmospheric carbon dioxide forms brownish carbonate precipitates covering the bedrock at the springs. Diverse archaeal and bacterial communities were detected in these carbonate precipitates using 454 pyrosequencing analyses of 16S ribosomal RNA (rRNA) genes. Archaeal communities were dominated by members of potential methane-producing and/or methane-oxidizing Methanobacteriales and Methanosarcinales (Euryarchaeota) together with ammonia-oxidizing Nitrososphaerales (Thaumarchaeota) similar to those found in other serpentinization-driven submarine and terrestrial ecosystems. Bacterial communities consisted of members of the Proteobacteria, Actinobacteria, Planctomycetes, Bacteroidetes, Chloroflexi, and Verrucomicrobia phyla, altogether accounting for 92.2% of total retrieved bacterial 16S rRNA gene sequences. Amongst Bacteria, potential chemolithotrophy was mainly associated with Alpha- and Betaproteobacteria classes, including nitrogen-fixing, methane-oxidizing or hydrogen-oxidizing representatives of the genera Azospirillum, Methylosinus, and Hydrogenophaga/'Serpentinomonas', respectively. Besides, potential chemoorganotrophy was attributed mainly to representatives of Actinobacteria and Planctomycetales phyla. The reported 16S rRNA gene data strongly suggested that hydrogen, methane, and nitrogen-based chemolithotrophy can sustain growth of the microbial communities inhabiting the carbonate precipitates in the hyperalkaline springs of the Voltri Massif, similarly to what was previously observed in other serpentinite-hosted ecosystems.

Published
2015
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49. Microbial diversity in a submarine carbonate edifice from the serpentinizing hydrothermal system of the Prony Bay (New Caledonia) over a 6-year period.

Author

Postec A, Quéméneur M, Bes M, Mei N, Benaïssa F, Payri C, Pelletier B, Monnin C, Guentas-Dombrowsky L, Ollivier B, Gérard E, Pisapia C, Gérard M, Ménez B, and Erauso G

Abstract

Active carbonate chimneys from the shallow marine serpentinizing Prony Hydrothermal Field were sampled 3 times over a 6 years period at site ST09. Archaeal and bacterial communities composition was investigated using PCR-based methods (clone libraries, Denaturating Gel Gradient Electrophoresis, quantitative PCR) targeting 16S rRNA genes, methyl coenzyme M reductase A and dissimilatory sulfite reductase subunit B genes. Methanosarcinales (Euryarchaeota) and Thaumarchaea were the main archaeal members. The Methanosarcinales, also observed by epifluorescent microscopy and FISH, consisted of two phylotypes that were previously solely detected in two other serpentinitzing ecosystems (The Cedars and Lost City Hydrothermal Field). Surprisingly, members of the hyperthermophilic order Thermococcales were also found which may indicate the presence of a hot subsurface biosphere. The bacterial community mainly consisted of Firmicutes, Chloroflexi, Alpha-, Gamma-, Beta-, and Delta-proteobacteria and of the candidate division NPL-UPA2. Members of these taxa were consistently found each year and may therefore represent a stable core of the indigenous bacterial community of the PHF chimneys. Firmicutes isolates representing new bacterial taxa were obtained by cultivation under anaerobic conditions. Our study revealed diverse microbial communities in PHF ST09 related to methane and sulfur compounds that share common populations with other terrestrial or submarine serpentinizing ecosystems.

Published
2015
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50. Acetoanaerobium pronyense sp. nov., an anaerobic alkaliphilic bacterium isolated from a carbonate chimney of the Prony Hydrothermal Field (New Caledonia).

Author

Bes M, Merrouch M, Joseph M, Quéméneur M, Payri C, Pelletier B, Ollivier B, Fardeau ML, Erauso G, and Postec A

Subjects
Bacterial Typing Techniques, Base Composition, Carbonates, Clostridiales genetics, Clostridiales isolation & purification, DNA, Bacterial genetics, Fatty Acids chemistry, Fermentation, Molecular Sequence Data, New Caledonia, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Clostridiales classification, Hydrothermal Vents microbiology, Phylogeny
Abstract

A novel anaerobic bacterial strain, ST07-YET, was isolated from a carbonate chimney of the Prony Hydrothermal Field (PHF) in New Caledonia. Cells were Gram-stain-positive, straight rods (0.7-0.8 × 3.0-5.0 μm) and motile by means of lateral flagella. Strain ST07-YET was mesophilic (optimum 35 °C), moderately alkaliphilic and halotolerant (optimum pH 8.7 and 5 g l- 1 NaCl). Elemental sulfur, sulfate, thiosulfate, sulfite, nitrate and nitrite were not used as terminal electron acceptors. Yeast extract, peptone, tryptone, Casamino acids, crotonate, pyruvate, galactose, maltose, sucrose, ribose, trehalose and glucose were used as carbon sources. Glucose fermentation led to acetate, H2 and CO2 formation. Arginine, serine, histidine, lysine, methionine and cysteine improved growth, but the Stickland reaction was negative for the combinations of amino acids tested. The major metabolic products from yeast extract fermentation were H2, CO2, acetate, butyrate, isobutyrate, isovalerate and propionate. The predominant cellular fatty acids were C16  :  0, C16  :  1cis9, C14  :  0 and C16  :  1cis7 (>5 % of total fatty acids). The G+C content of the genomic DNA was 32.9 mol%. Phylogenetic analysis revealed that strain ST07-YET was most closely related to Clostridium sticklandii DSM 519T and Acetoanaerobium noterae NOT-3T (96.7 % and 96.8 % 16S rRNA gene sequence similarity, respectively). On the basis of phylogenetic, chemotaxonomic and physiological properties, strain ST07-YET is proposed to represent a novel species of the genus Acetoanaerobium (order Clostridiales, phylum Firmicutes) with the name Acetoanaerobium pronyense sp. nov. The type strain is ST07-YET ( = DSM 27512T = JCM 19400T).

Published
2015
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