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3. List of Contributors

Author

Acevedo, F., primary, Alonso, E., additional, Alvarenga, V.O., additional, Aroca, G., additional, Campagnollo, F.B., additional, Chaves, R.D., additional, Cruz, J.M., additional, de Carvalho, J.C., additional, Deive, F.J., additional, de Matos, M.E., additional, de Pinho Monteiro, A., additional, Díaz, M., additional, Dussap, C.-G., additional, Estévez, N., additional, Estevinho, L.M., additional, Fuciños, C., additional, Fuciños, P., additional, González, R., additional, Gschaedler Mathis, A.C., additional, Joshi, V.K., additional, Kohajdová, Z., additional, Koutinas, A.A., additional, Lebert, A., additional, Ledesma, E., additional, Li, Q., additional, Liu, C., additional, Medeiros, A.B.P., additional, Mendes-Faia, A., additional, Mendes-Ferreira, A., additional, Moldes, A.B., additional, Oliveira, J.M., additional, Oteiza, J.M., additional, Pastrana, L., additional, Pereira, A.P., additional, Pereira, L., additional, Piggott, J.R., additional, Poughon, L., additional, Rendueles, M., additional, Rodríguez Amado, I., additional, Rodriguez Caturla, M.Y., additional, Rúa, M.L., additional, Sanromán, M.A., additional, Sant'Ana, A.S., additional, Shah, N.N., additional, Sharma, S., additional, Singhal, R.S., additional, Soccol, C.R., additional, Tang, K., additional, Thakur, A.D., additional, Troncoso, R., additional, Vecino, X., additional, and Wang, J., additional

Published
2017
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8. HUMEX, a study on the survivability and adaptation of humans to long-duration exploratory missions, part I: lunar missions

Author

Horneck, G, Facius, R, Reichert, M, Rettberg, P, Seboldt, W, Manzey, D, Comet, B, Maillet, A, Preiss, H, Schauer, L, Dussap, C. G, Poughon, L, Belyavin, A, Reitz, G, Baumstark-Khan, C, and Gerzer, R

Subjects
Man/System Technology And Life Support
Abstract

The European Space Agency has recently initiated a study of the human responses, limits and needs with regard to the stress environments of interplanetary and planetary missions. Emphasis has been laid on human health and performance care as well as advanced life support developments including bioregenerative life support systems and environmental monitoring. The overall study goals were as follows: (i) to define reference scenarios for a European participation in human exploration and to estimate their influence on the life sciences and life support requirements; (ii) for selected mission scenarios, to critically assess the limiting factors for human health, wellbeing, and performance and to recommend relevant countermeasures; (iii) for selected mission scenarios, to critically assess the potential of advanced life support developments and to propose a European strategy including terrestrial applications; (iv) to critically assess the feasibility of existing facilities and technologies on ground and in space as testbeds in preparation for human exploratory missions and to develop a test plan for ground and space campaigns; (v) to develop a roadmap for a future European strategy towards human exploratory missions, including preparatory activities and terrestrial applications and benefits. This paper covers the part of the HUMEX study dealing with lunar missions. A lunar base at the south pole where long-time sunlight and potential water ice deposits could be assumed was selected as the Moon reference scenario. The impact on human health, performance and well being has been investigated from the view point of the effects of microgravity (during space travel), reduced gravity (on the Moon) and abrupt gravity changes (during launch and landing), of the effects of cosmic radiation including solar particle events, of psychological issues as well as general health care. Countermeasures as well as necessary research using ground-based test beds and/or the International Space Station have been defined. Likewise advanced life support systems with a high degree of autonomy and regenerative capacity and synergy effects were considered where bioregenerative life support systems and biodiagnostic systems become essential. Finally, a European strategy leading to a potential European participation in future human exploratory missions has been recommended. c2003 COSPAR. Published by Elsevier Ltd. All rights reserved.

Published
2003

13. Influence of pH on complexing of model beta-D-Glucans with zearalenone

Author

Yiannikouris, A., François, Jean-Marie, Poughon, L., Dussap, C.G., Jeminet, G., Bertin, Gaelle, Jouany, J Pierre, Unité de Recherches sur les Herbivores (URH), Institut National de la Recherche Agronomique (INRA), Alltech-France, Unité mixte de recherche biotechnologies bioprocédés, Institut National de la Recherche Agronomique (INRA)-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), Université Blaise Pascal - Clermont-Ferrand 2 (UBP), Centre National de la Recherche Scientifique (CNRS), and Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects
ZEARALENONE, [SDV]Life Sciences [q-bio], [SDV.IDA]Life Sciences [q-bio]/Food engineering, [INFO]Computer Science [cs], [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2004

15. Etude de ligands organiques capables de former des complexes avec des mycotoxines et de limiter leur impact sur l'animal et la présence de résidus dans les produits animaux

Author

Yiannikouris, A., Poughon, L., François, J., Cameleyre, Xavier, Dussap, G.A., Bertin, Yolande, Jouany, J.P., Unité de Recherches sur les Herbivores (URH), Institut National de la Recherche Agronomique (INRA), Unité de recherche Maladies Métaboliques et Micronutriments (U3M), and ProdInra, Migration

Subjects
[SDV] Life Sciences [q-bio], ALIMENT POUR ANIMAUX, [SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

National audience

Published
2002

16. HUMEX, a study on the survivability and adaptation of humans to long-duration exploratory missions, part II: Missions to Mars

Author

Horneck, G., primary, Facius, R., additional, Reichert, M., additional, Rettberg, P., additional, Seboldt, W., additional, Manzey, D., additional, Comet, B., additional, Maillet, A., additional, Preiss, H., additional, Schauer, L., additional, Dussap, C.G., additional, Poughon, L., additional, Belyavin, A., additional, Reitz, G., additional, Baumstark-Khan, C., additional, and Gerzer, R., additional

Published
2006
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21. Adsorption of Zearalenone by β-Glucans in the Saccharomyces cerevisiae Cell Wall.

Author

Yiannikouris, A., François, J., Poughon, L., Dussap, C.-G., Bertin, G., Jeminet, G., and Jouany, J.-P.

Subjects
CELL membranes, BACTERIAL cell walls, FUNGAL cell walls, GASTROINTESTINAL system, MYCOTOXINS, SACCHAROMYCES cerevisiae
Abstract

Cell walls of yeasts and bacteria are able to complex with mycotoxins and limit their bioavailability in the digestive tract when these yeasts and bacteria are given as feed additives to animals. To identify the component(s) of the yeast cell wall and the chemical interaction(s) involved in complex formation with zearalenone, four strains of Saccharomyces cerevisiae differing in their cell wall glucan and mannan content were tested. Laboratory strains wt 292, fks1, and mnn9 were compared with industrial S. cerevisiae strain sc1026. The complex forming capacity of the yeast cell walls was determined in vitro by modelling the plots of amount of toxin bound versus amount of toxin added using Hill's model. A cooperative relationship between toxin and adsorbent was shown, and a correlation between the amount of β D-glucans in cell walls and complex forming efficacy was revealed (R² = 0.889). Cell walls of strains wt292 and mnn9, which have higher levels of β-D-glucans, were able to complex larger amounts of zearalenone, with higher association constants and higher affinity rates than those of the fks1 and sc1026 strains. The high chitin content in strains mnn9 and fks1 increased the alkali insolubility of β-D-glucans from isolated cell walls and decreased the flexibility of these cell walls, which restricted access of zearalenone to the chemical sites of the β-D-glucans involved in complex formation. The strains with high chitin content thus had a lower complex-forming capacity than expected based on their β-D-glucans content. Cooperativity and the three-dimensional structure of β-D-glucans indicate that weak noncovalent bonds are involved in the complex-forming mechanisms associated with zearalenone. The chemical interactions between β-D-glucans and zearalenone are therefore more of an adsorption type than a binding type. [ABSTRACT FROM AUTHOR]

Published
2004
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22. Adsorption of Zearalenone by β-d-Glucans in the Saccharomyces cerevisiaeCell Wall

Author

Yiannikouris, A., François, J., Poughon, L., Dussap, C.-G., Bertin, G., Jeminet, G., and Jouany, J.-P.

Abstract

Cell walls of yeasts and bacteria are able to complex with mycotoxins and limit their bioavailability in the digestive tract when these yeasts and bacteria are given as feed additives to animals. To identify the component(s) of the yeast cell wall and the chemical interaction(s) involved in complex formation with zearalenone, four strains of Saccharomyces cerevisiaediffering in their cell wall glucan and mannan content were tested. Laboratory strains wt292, fks1, and mnn9 were compared with industrial S. cerevisiaestrain sc1026. The complex-forming capacity of the yeast cell walls was determined in vitro by modelling the plots of amount of toxin bound versus amount of toxin added using Hill's model. A cooperative relationship between toxin and adsorbent was shown, and a correlation between the amount of β-d-glucans in cell walls and complex-forming efficacy was revealed (R2= 0.889). Cell walls of strains wt292 and mnn9, which have higher levels of β-d-glucans, were able to complex larger amounts of zearalenone, with higher association constants and higher affinity rates than those of the fks1 and sc1026 strains. The high chitin content in strains mnn9 and fks1 increased the alkali insolubility of β-d-glucans from isolated cell walls and decreased the flexibility of these cell walls, which restricted access of zearalenone to the chemical sites of the β-d-glucans involved in complex formation. The strains with high chitin content thus had a lower complex-forming capacity than expected based on their β-d-glucans content. Cooperativity and the three-dimensional structure of β-d-glucans indicate that weak noncovalent bonds are involved in the complex-forming mechanisms associated with zearalenone. The chemical interactions between β-d-glucans and zearalenone are therefore more of an adsorption type than a binding type.

Published
2004
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23. kLadetermination: comparative study for a gas mass balance method

Author

Poughon, L., Duchez, D., Cornet, J., and Dussap, C.

Abstract

The determination ofkLaby a gas balance method coupled with sulphite oxidation is compared for three kinds of processes (stirred tank, bubble column and fixed-bed column reactors) with a gassing-in and with a classical chemical sulphite oxidation method. The mathematical relations required for the determination of thekLavalue are detailed. In coalescing gas–liquid conditions, the values calculated by the three methods are shown to be comparable. The gas balance method is more rapid than either the steady-state gassing-in or the chemical sulphite reaction rate measurement methods. It is also well adapted for three-phase systems (gas–liquid–solid) in which the non-coalescing effects of sulphite solution are reduced by solid interferences.The determination ofkLaby a gas balance method coupled with sulphite oxidation is compared for three kinds of processes (stirred tank, bubble column and fixed-bed column reactors) with a gassing-in and with a classical chemical sulphite oxidation method. The mathematical relations required for the determination of thekLavalue are detailed. In coalescing gas–liquid conditions, the values calculated by the three methods are shown to be comparable. The gas balance method is more rapid than either the steady-state gassing-in or the chemical sulphite reaction rate measurement methods. It is also well adapted for three-phase systems (gas–liquid–solid) in which the non-coalescing effects of sulphite solution are reduced by solid interferences.

Published
2003
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26. A new stoichiometric miniaturization strategy for screening of industrial microbial strains: application to cellulase hyper-producing Trichoderma reesei strains

Author

Jourdier Etienne, Poughon Laurent, Larroche Christian, Monot Frédéric, and Chaabane Fadhel

Subjects
Screening, Miniaturization, Stoichiometry, Fed-batch, pH Control, Cellulase, Trichoderma reesei, Microbiology, QR1-502
Abstract

Abstract Background During bioprocess development, secondary screening is a key step at the boundary between laboratory and industrial conditions. To ensure an effective high-throughput screening, miniaturized laboratory conditions must mimic industrial conditions, especially for oxygen transfer, feeding capacity and pH stabilization. Results A feeding strategy has been applied to develop a simple screening procedure, in which a stoichiometric study is combined with a standard miniaturization procedure. Actually, the knowledge of all nutriments and base or acid requirements leads to a great simplification of pH stabilization issue of miniaturized fed-batch cultures. Applied to cellulase production by Trichoderma reesei, this strategy resulted in a stoichiometric mixed feed of carbon and nitrogen sources. While keeping the pH between shake flask and stirred bioreactor comparable, the developed shake flask protocol reproduced the strain behaviour under stirred bioreactor conditions. Compared to a an already existing miniaturized shake flasks protocol, the cellulase concentration was increased 5-fold, reaching about 10 g L-1. Applied to the secondary screening of several clones, the newly developed protocol succeeded in selecting a clone with a high industrial potential. Conclusions The understanding of a bioprocess stoichiometry contributed to define a simpler and more effective miniaturization. The suggested strategy can potentially be applied to other fed-batch processes, for the screening of either strain collections or experimental conditions.

Published
2012
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27. An extended database of annotated skylight polarization images covering a period of two months.

Author

Poughon L, Aubry V, Monnoyer J, Viollet S, and Serres JR

Subjects
Algorithms, Image Processing, Computer-Assisted methods, Databases, Factual
Abstract

Objectives: Recent advances in bio-inspired navigation have sparked interest in the phenomenon of skylight polarization. This interest stems from the potential of skylight-based orientation sensors, which performance can be simulated using physical models. However, the effectiveness of machine learning algorithms in this domain relies heavily on access to large datasets for training. Although there are several databases of simulated images in literature, there remains a lack of publicly available annotated real-world color polarimetric images of the sky across various weather conditions., Data Description: We present here a dataset obtained from a long-term experimental setup designed to collect polarimetric images from a stand-alone camera. The setup utilizes a Division-of-Focal-Plane polarization camera equipped with a fisheye lens mounted on a rotative telescope mount. Furthermore, we obtained the sensor's orientation within the East-North-Up (ENU) frame from a geometrical calibration and an algorithm provided with the database. To facilitate further research in this area, the present sample dataset spanning two months has been made available on a public archive with manual annotations as required by deep learning algorithms. The images were acquired at 10 min intervals and were taken with various exposure times ranging from 33µs to 300ms., (© 2024. The Author(s).)

Published
2024
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28. SkyPole-A method for locating the north celestial pole from skylight polarization patterns.

Author

Kronland-Martinet T, Poughon L, Pasquinelli M, Duché D, Serres JR, and Viollet S

Abstract

True north can be determined on Earth by three means: magnetic compasses, stars, and via the global navigation satellite systems (GNSS), each of which has its own drawbacks. GNSS are sensitive to jamming and spoofing, magnetic compasses are vulnerable to magnetic interferences, and the stars can be used only at night with a clear sky. As an alternative to these methods, nature-inspired navigational cues are of particular interest. Celestial polarization, which is used by insects such as Cataglyphis ants, can provide useful directional cues. Migrating birds calibrate their magnetic compasses by observing the celestial rotation at night. By combining these cues, we have developed a bioinspired optical method for finding the celestial pole during the daytime. This method, which we have named SkyPole, is based on the rotation of the skylight polarization pattern. A polarimetric camera was used to measure the degree of skylight polarization rotating with the Sun. Image difference processes were then applied to the time-varying measurements in order to determine the north celestial pole's position and thus the observer's latitude and bearing with respect to the true north.

Published
2023
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29. Thermocaproicibacter melissae gen. nov., sp. nov., a thermophilic chain-elongating bacterium, producing n -caproate from polymeric carbohydrates.

Author

Nguyen TV, Viver T, Smets I, Bernaerts K, Faust K, Lavigne R, Poughon L, Dussap CG, and Springael D

Subjects
Humans, Phylogeny, RNA, Ribosomal, 16S genetics, Caproates, Base Composition, Bacterial Typing Techniques, DNA, Bacterial genetics, Sequence Analysis, DNA, Phospholipids analysis, Bacteria, Anaerobic, Polymers, Fatty Acids chemistry, Lactobacillales genetics
Abstract

Strain MDTJ8 T is a chain-elongating thermophilic bacterium isolated from a thermophilic acidogenic anaerobic digestor treating human waste while producing the high commodity chemical n -caproate. The strain grows and produces formate, acetate, n -butyrate, n -caproate and lactate from mono-, di- and polymeric saccharides at 37-60 °C (optimum, 50-55 °C) and at pH 5.0-7.0 (optimum, pH 6.5). The organism is an obligate anaerobe, is motile and its cells form rods (0.3-0.5×1.0-3.0 µm) that stain Gram-positive and occur primarily as chains. Phylogenetic analysis of both the 16S rRNA gene and full genome sequence shows that strain MDTJ8 T belongs to a group that consists of mesophylic chain-elongating bacteria within the family Oscillospiraceae , being nearest to Caproicibacter fermentans EA1 T (94.8 %) and Caproiciproducens galactitolivorans BS-1 T (93.7 %). Its genome (1.96 Mbp) with a G+C content of 49.6 mol% is remarkably smaller than those of other chain-elongating bacteria of the family Oscillospiraceae . Pairwise average nucleotide identity and DNA-DNA hybridization values between strain MDJT8 T and its mesophilic family members are less than 70 and 35 %, respectively, while pairwise average amino acid identity values are less than 68 %. In addition, strain MDJT8 T uses far less carbohydrate and non-carbohydrate substrates compared to its nearest family members. The predominant cellular fatty acids of strain MDTJ8 T are C 14 : 0 , C 14 : 0 DMA (dimethyl acetal) and C 16 : 0 , while its polar lipid profile shows three unidentified glycophospholipids, 11 glycolipids, 13 phospholipids and six unidentified lipids. No respiratory quinones and polyamines are detected. Based on its phylogenetic, genotypic, morphological, physiological, biochemical and chemotaxonomic characteristics, strain MDTJ8 T represents a novel species and novel genus of the family Oscillospiraceae and Thermocaproicibacter melissae gen. nov., sp. nov. is proposed as its name. The type strain is MDTJ8 T (=DSM 114174 T =LMG 32615 T =NCCB 100883 T ).

Published
2023
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30. Isolation and characterization of a thermophilic chain elongating bacterium that produces the high commodity chemical n-caproate from polymeric carbohydrates.

Author

Van Nguyen T, Viver T, Mortier J, Liu B, Smets I, Bernaerts K, Faust K, Lavigne R, Poughon L, Dussap CG, and Springael D

Subjects
Humans, RNA, Ribosomal, 16S genetics, Fermentation, Hexoses, Caproates, Bacteria genetics
Abstract

A thermophilic chain elongating bacterium, strain MDTJ8, was isolated from a thermophilic acidogenic anaerobic digestor producing n-caproate from human waste, growing optimally at 50-55 °C and pH 6.5. 16S rRNA gene analysis suggests that MDTJ8 represents a new species/genus within a group currently composed of mesophilic chain elongators of the Oscillospiraceae family. Genome analysis showed that strain MDTJ8 contains homologues of genes encoding for chain elongation and energy conservation but also indicated n-caproate production from carbohydrates including polymeric substances. This was confirmed by culturing experiments in which MDTJ8 converted, at pH 6.5 and 55 °C, mono-, di- and polymeric carbohydrates (starch and hemicellulose) to n-caproate reaching concentrations up to 283 mg/L and accounting for up to 10 % of the measured fermentation products. MDTJ8 is the first axenic organism that thermophilically performs chain elongation, opening doors to understand and intensify thermophilic bioprocesses targeting anaerobic digestion towards the production of the value-added chemical n-caproate., 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 © 2022 Elsevier Ltd. All rights reserved.)

Published
2023
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31. Limnospira indica PCC8005 growth in photobioreactor: model and simulation of the ISS and ground experiments.

Author

Poughon L, Laroche C, Creuly C, Dussap CG, Paille C, Lasseur C, Monsieurs P, Heylen W, Coninx I, Mastroleo F, and Leys N

Subjects
Cyanobacteria metabolism, Hydrogen-Ion Concentration, Life Support Systems instrumentation, Light, Models, Theoretical, Spacecraft, Weightlessness, Cyanobacteria growth & development, Oxygen metabolism, Photobioreactors
Abstract

The Arthrospira-B experiment is the first experiment in space ever allowing the online measurements of both oxygen production rate and growth rate of Limnospira indica PCC8005 in batch photobioreactors running on-board ISS. Four bioreactors were integrated in the ISS Biolab facility. Each reactor was composed of two chambers (gas and liquid) separated by a PTFE membrane and was run in batch conditions. Oxygen production was monitored by online measurement of the total pressure increase in the gas chamber. The experiments are composed of several successive batch cultures for each reactor, performed in parallel on ISS and on ground. In this work, a model for the growth of the cyanobacterium Limnospira indica PCC8005 (also known as Arthrospira or spirulina) in these space membrane photobioreactors was proposed and the simulation results obtained are compared to the experimental results gathered in space and on ground. The photobioreactor model was based on a light transfer limitation model, already used to describe and predict the growth and oxygen production in small to large scale ground photobioreactors. It was completed by a model for pH prediction in the liquid phase allowing assessment of the pH increase associated to the bicarbonate consumption for the biomass growth. A membrane gas-liquid transfer model is used to predict the gas pressure increase in the gas chamber. Substrate limitation is considered in the biological model. A quite satisfactory fit was achieved between experimental and simulation results when a suitable mixing of the liquid phase was maintained. The data showed that microgravity has no first order effect on the oxygen production rate of Limnospira indica PCC8005 in a photobioreactor operating in space in zero gravity conditions., 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 The Committee on Space Research (COSPAR). Published by Elsevier Ltd. All rights reserved.)

Published
2020
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32. Assessment of transient effects of alternative nitrogen sources in continuous cultures of Arthrospira sp. using proteomic, modeling and biochemical tools.

Author

Sachdeva N, Giambarresi G, Poughon L, Cabrera JC, Leroy B, Lasseur C, Dussap CG, and Wattiez R

Subjects
Biomass, Models, Theoretical, Nitrogen, Denitrification, Photobioreactors, Proteomics, Spirulina
Abstract

The ability of cyanobacterium Arthrospira sp. to assimilate waste nitrogen sources (ammonium and urea) makes it an important candidate for wastewater management. The aim of this work was to evaluate a cultivation approach based on continuous-transitional-feeding regime (nitrate-ammonium-nitrate) in a photobioreactor to assess the effects of ammonium salts on Arthrospira sp. PCC 8005 metabolism. Using a comprehensive biochemical, proteomic and stoichiometric profiling of biomass, this study demonstrated that the proposed cultivation approach could increase the proteins and pigments yields by 20-30%, compared to the respective yields obtained from wild-type Arthrospira sp. strain A light-energy-transfer model was used to predict the biomass and oxygen productivities of Arthrospira sp. cultivated under transitional-feeding regime. 95 ± 2% match was observed between the experimental and simulated productivities. This study thus opened new avenues for use of ammonium rich wastewater for commercial production of high value pigments, biofuel and bioplastics using Arthrospira sp., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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33. Growth modelling of Nitrosomonas europaea ATCC® 19718 and Nitrobacter winogradskyi ATCC® 25391: A new online indicator of the partial nitrification.

Author

Cruvellier N, Poughon L, Creuly C, Dussap CG, and Lasseur C

Subjects
Bacteria, Bioreactors, Coculture Techniques, Kinetics, Nitrification, Nitrobacter metabolism, Nitrosomonas growth & development, Nitrosomonas europaea metabolism, Models, Theoretical, Nitrobacter growth & development, Nitrosomonas europaea growth & development
Abstract

The aim of the present work was to study the growth of two nitrifying bacteria. For modelling the nitrifying subsystem of the MELiSSA loop, Nitrosomonas europaea ATCC® 19718 and Nitrobacter winogradskyi ATCC® 25931 were grown separately and in cocultures. The kinetic parameters of a stoichiometric mass balanced Pirt model were identified: μmax=0.054h(-1), decay rate b=0.003h(-1) and maintenance rate m=0.135gN-NH4(+)·gX(-1)·h(-1) for Nitrosomonas europaea; μmax=0.024h(-1), b=0.001h(-1) and m=0.467gN-NO2(-)·gX(-1)·h(-1) for Nitrobacter winogradskyi. A predictive structured model of nitrification in co-culture was developed. The online evolution of the addition of KOH is correlated to the nitritation; the dissolved oxygen concentration is correlated to both nitritation and nitratation. The model suitably represents these two variables so that transient partial nitrification is assessed. This is a clue for avoiding partial nitrification by predictive functional control., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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34. Improvement and modeling of culture parameters to enhance biomass and lipid production by the oleaginous yeast Cryptococcus curvatus grown on acetate.

Author

Béligon V, Poughon L, Christophe G, Lebert A, Larroche C, and Fontanille P

Subjects
Cell Culture Techniques methods, Cell Proliferation physiology, Computer Simulation, Cryptococcus chemistry, Cryptococcus classification, Culture Media chemistry, Hydrogen-Ion Concentration, Lipids isolation & purification, Acetates metabolism, Batch Cell Culture Techniques methods, Bioreactors microbiology, Cryptococcus physiology, Lipid Metabolism physiology, Models, Biological
Abstract

The improvement of culture parameters for lipid production from acetate as carbon source was investigated using the oleaginous yeast Cryptococcus curvatus. A new pH regulation system dispensing acetate was developed for fed-batch culture and allowed obtaining nearly 80 g/L biomass within 60 h with a maximal growth rate of 0.28 h(-1). A biological model was developed from experimental data. The influence of three C/N ratios of 300, 500 and 900 were tested during a multi-phases process on lipid accumulation. The C/N ratio of 300 was reported to be the most suitable for lipid storage. No significant increase of lipids content was obtained with higher value. A maximal content of 60% DCW of lipid was obtained. The determination of fatty acids profiles of the microbial oils has confirmed that the valorization of acetate by microbial oils production was a promising perspective., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
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35. Test of an anaerobic prototype reactor coupled with a filtration unit for production of VFAs.

Author

Poughon L, Creuly C, Farges B, Dussap CG, Schiettecatte W, Jovetic S, and De Wever H

Subjects
Anaerobiosis, Biodegradation, Environmental, Chromatography, Gas, Membranes, Artificial, Ammonia metabolism, Bioreactors, Biotechnology methods, Carbon Dioxide metabolism, Environment, Controlled, Fatty Acids, Volatile biosynthesis
Abstract

The artificial ecosystem MELiSSA, supported by the European Space Agency is a closed loop system consisting of 5 compartments in which food, water and oxygen are produced out of organic waste. The first compartment is conceived as a thermophilic anaerobic membrane bioreactor liquefying organic waste into VFAs, ammonium and CO2 without methane. A 20 L reactor was assembled to demonstrate the selected design and process at prototype scale. We characterized system performance from start-up to steady state and evaluated process efficiencies with special attention drawn to the mass balances. An overall efficiency for organic matter biodegradation of 50% was achieved. The dry matter content was stabilized around 40-50 g L(-1) and VFA production around 5-6 g L(-1). The results were consistent for the considered substrate mixture and can also be considered relevant in a broader context, as a first processing step to produce building blocks for synthesis of primary energy vectors., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2013
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36. Cellulase activity mapping of Trichoderma reesei cultivated in sugar mixtures under fed-batch conditions.

Author

Jourdier E, Cohen C, Poughon L, Larroche C, Monot F, and Chaabane FB

Abstract

Background: On-site cellulase production using locally available lignocellulosic biomass (LCB) is essential for cost-effective production of 2nd-generation biofuels. Cellulolytic enzymes (cellulases and hemicellulases) must be produced in fed-batch mode in order to obtain high productivity and yield. To date, the impact of the sugar composition of LCB hydrolysates on cellulolytic enzyme secretion has not been thoroughly investigated in industrial conditions., Results: The effect of sugar mixtures (glucose, xylose, inducer) on the secretion of cellulolytic enzymes by a glucose-derepressed and cellulase-hyperproducing mutant strain of Trichoderma reesei (strain CL847) was studied using a small-scale protocol representative of the industrial conditions. Since production of cellulolytic enzymes is inducible by either lactose or cellobiose, two parallel mixture designs were performed separately. No significant difference between inducers was observed on cellulase secretion performance, probably because a common induction mechanism occurred under carbon flux limitation. The characteristics of the enzymatic cocktails did not correlate with productivity, but instead were rather dependent on the substrate composition. Increasing xylose content in the feed had the strongest impact. It decreased by 2-fold cellulase, endoglucanase, and cellobiohydrolase activities and by 4-fold β-glucosidase activity. In contrast, xylanase activity was increased 6-fold. Accordingly, simultaneous high β-glucosidase and xylanase activities in the enzymatic cocktails seemed to be incompatible. The variations in enzymatic activity were modelled and validated with four fed-batch cultures performed in bioreactors. The overall enzyme production was maintained at its highest level when substituting up to 75% of the inducer with non-inducing sugars., Conclusions: The sugar substrate composition strongly influenced the composition of the cellulolytic cocktail secreted by T. reesei in fed-batch mode. Modelling can be used to predict cellulolytic activity based on the sugar composition of the culture-feeding solution, or to fine tune the substrate composition in order to produce a desired enzymatic cocktail.

Published
2013
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37. Dynamic aspects and controllability of the MELiSSA project: a bioregenerative system to provide life support in space.

Author

Farges B, Poughon L, Creuly C, Cornet JF, Dussap CG, and Lasseur C

Subjects
Bacteria, Anaerobic metabolism, Biodegradation, Environmental, Cyanobacteria metabolism, Humans, Models, Theoretical, Nitrobacter metabolism, Nitrosomonas metabolism, Plants metabolism, Rhodospirillum rubrum metabolism, Waste Management methods, Bioreactors, Ecological Systems, Closed, Life Support Systems, Space Flight
Abstract

Manmade ecosystems differ from their prototype biosphere by the principle of control. The Earth Biosphere is sustainable by stochastic control and very large time constants. By contrast, in a closed ecosystem such as the micro-ecological life support system alternative (MELiSSA system) developed by the European Space Agency for space exploration, a deterministic control is a prerequisite of sustainable existence. MELiSSA is an integrated sum of interconnected biological subsystems. On one hand, all unit operations in charge of the elementary functions constitutive of the entire life support system are studied until a thorough understanding and mathematical modelling. On the other hand, the systemic approach of complex, highly branched systems with feedback loops is performed. This leads to study in the same perspective, with the same degree of accuracy and with the same language, waste degradation, water recycling, atmosphere revitalisation and food production systems prior to the integration of knowledge-based control models. This paper presents the mathematical modelling of the MELiSSA system and the interface between the control strategy of the entire system and the control of the bioreactors.

Published
2008
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38. Chemical and conformational study of the interactions involved in mycotoxin complexation with beta-D-glucans.

Author

Yiannikouris A, André G, Poughon L, François J, Dussap CG, Jeminet G, Bertin G, and Jouany JP

Subjects
Adsorption, Binding Sites, Cell Wall chemistry, Hydrogen Bonding, Hydrogen-Ion Concentration, In Vitro Techniques, Kinetics, Models, Molecular, Molecular Structure, Saccharomyces cerevisiae chemistry, Silicon Dioxide chemistry, Surface Properties, Mycotoxins chemistry, Protein Conformation, beta-Glucans chemistry
Abstract

In a previous paper we reported that beta-D-glucans isolated from Saccharomyces cerevisiae could adsorb zearalenone, reduce its bioavailability in the digestive tract, and protect animals against its adverse effects. We have now investigated, in vitro, the kinetics of the interaction between other mycotoxins and beta-D-glucans from several sources at three pH values found along the digestive tract (3.0, 6.0, and 8.0). Acid and neutral conditions gave the highest affinity rates for aflatoxins B1 > deoxynivalenol > ochratoxin A and involved both the (1 --> 3)-beta-D-glucans and the (1 --> 6)-beta-D-glucans. Alkaline conditions, owing to their destructuring action on glucans, were favorable only for the adsorption of patulin. Using molecular mechanics, we found that hydroxyl, ketone, and lactone groups are involved in the formation of both hydrogen bonds and van der Waals interactions between aflatoxins B1, deoxynivalenol and patulin, and beta-D-glucans. Differences in the binding capacity of the mycotoxins are due to their specific physical and chemical characteristics.

Published
2006
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39. Influence of pH on complexing of model beta-d-glucans with zearalenone.

Author

Yiannikouris A, François J, Poughon L, Dussap CG, Jeminet G, Bertin G, and Jouany JP

Subjects
Adsorption, Biological Availability, Consumer Product Safety, Dose-Response Relationship, Drug, Food Microbiology, Humans, Solubility, Cell Wall chemistry, Hydrogen-Ion Concentration, Saccharomyces cerevisiae, Zearalenone chemistry, beta-Glucans chemistry
Abstract

Previous studies have shown that isolated beta-(1,3 and 1,6)-D-glucans and related alkali-extracted fractions from the cell wall of Saccharomyces cerevisiae are able to complex with zearalenone in vitro (affinity up to 50%) and thus may reduce the bioavailability of toxins in the digestive tract. The complexation mechanisms involve cooperative interaction between the two chemical entities that can be computed by Hill's model. Various linear or branched soluble or insoluble beta-D-glucans were evaluated to elucidate their roles in the adsorption mechanisms under three pH conditions (3.0, 6.0, and 8.0) found in the digestive tract. A constant quantity of each beta-D-glucans (1 mg/ml) was mixed at 39 degrees C with increasing amounts of zearalenone (2 to 100 microg/ml), and the amount of bound toxin was measured. Acidic and neutral conditions gave the highest affinity rates (64 to 77%) by beta-(1,3)-D-glucans, whereas alkaline conditions decreased adsorption except when beta-(1,6)-D-glucan side chains were branched on beta-(1,3)-D-glucans. Alkaline conditions appear to impede the active three dimensional conformation of beta-D-glucans and favor single helix and/or random coil structures. Study of the equilibrium between beta-D-glucan-bound and free toxins revealed that two types of chemical interactions occur during toxin complexation with beta-D-glucans, identified as weak chemical linkages such as hydrogen and van der Waals bonds.

Published
2004
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40. Alkali extraction of beta-d-glucans from Saccharomyces cerevisiae cell wall and study of their adsorptive properties toward zearalenone.

Author

Yiannikouris A, François J, Poughon L, Dussap CG, Bertin G, Jeminet G, and Jouany JP

Subjects
Adsorption, Hydrogen-Ion Concentration, Solubility, Cell Wall chemistry, Glucans chemistry, Glucans isolation & purification, Saccharomyces cerevisiae chemistry, Zearalenone chemistry
Abstract

The isolated cell wall of Saccharomyces cerevisiae has some capacity to adsorb zearalenone (affinity near 30%) and reduce the bioavailability of toxins in the digestive tract. The adsorption process was quantified in vitro, and the data obtained when plotted with Hill's equation indicated a cooperative process. The model showed that the adsorption capacity was related to the yeast cell wall composition. This work focused on the role of various beta-d-glucan types in the efficacy of zearalenone adsorption by yeast cell wall and sought to elucidate some of the adsorption mechanisms. Zearalenone was mixed at 37 degrees C with a constant quantity of alkali-soluble or alkali-insoluble beta-d-glucans isolated from yeast cell walls, and the amount of adsorbed zearalenone was measured. Given that the alkali solubility of beta-d-glucans is a determining factor for their three-dimensional conformation and that the alkali-insoluble fraction had a greater affinity (up to 50%) than the alkali-soluble fraction ( approximately 16%), it was concluded that the three-dimensional structure strongly influences the adsorption process. The alkali insolubility of beta-d-glucans led to the formation of single and/or triple helices, which have been identified as the most favorable structures for zearalenone adsorption efficacy. The beta(1,3)-d-glucan and beta(1,6)-d-glucan compositions of the two alkali-extracted fractions and their involvement in the adsorption process are discussed.

Published
2004
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41. Adsorption of Zearalenone by beta-D-glucans in the Saccharomyces cerevisiae cell wall.

Author

Yiannikouris A, François J, Poughon L, Dussap CG, Bertin G, Jeminet G, and Jouany JP

Subjects
Adsorption, Animal Feed, Animals, Biological Availability, Consumer Product Safety, Food Microbiology, Humans, Solubility, Cell Wall chemistry, Glucans chemistry, Saccharomyces cerevisiae chemistry, Zearalenone chemistry
Abstract

Cell walls of yeasts and bacteria are able to complex with mycotoxins and limit their bioavailability in the digestive tract when these yeasts and bacteria are given as feed additives to animals. To identify the component(s) of the yeast cell wall and the chemical interaction(s) involved in complex formation with zearalenone, four strains of Saccharomyces cerevisiae differing in their cell wall glucan and mannan content were tested. Laboratory strains wt292, fks1, and mnn9 were compared with industrial S. cerevisiae strain sc1026. The complex-forming capacity of the yeast cell walls was determined in vitro by modelling the plots of amount of toxin bound versus amount of toxin added using Hill's model. A cooperative relationship between toxin and adsorbent was shown, and a correlation between the amount of beta-D-glucans in cell walls and complex-forming efficacy was revealed (R2 = 0.889). Cell walls of strains wt292 and mnn9, which have higher levels of beta-D-glucans, were able to complex larger amounts of zearalenone, with higher association constants and higher affinity rates than those of the fks1 and sc1026 strains. The high chitin content in strains mnn9 and fks1 increased the alkali insolubility of beta-D-glucans from isolated cell walls and decreased the flexibility of these cell walls, which restricted access of zearalenone to the chemical sites of the beta-D-glucans involved in complex formation. The strains with high chitin content thus had a lower complex-forming capacity than expected based on their beta-D-glucans content. Cooperativity and the three-dimensional structure of beta-D-glucans indicate that weak noncovalent bonds are involved in the complex-forming mechanisms associated with zearalenone. The chemical interactions between beta-D-glucans and zearalenone are therefore more of an adsorption type than a binding type.

Published
2004
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42. A novel technique to evaluate interactions between Saccharomyces cerevisiae cell wall and mycotoxins: application to zearalenone.

Author

Yiannikouris A, Poughon L, Cameleyre X, Dussap CG, François J, Bertin G, and Jouany JP

Subjects
Adsorption, Cell Fractionation, Cell Membrane chemistry, Computer Simulation, Models, Chemical, Mycotoxins pharmacokinetics, Subcellular Fractions chemistry, Subcellular Fractions metabolism, Zearalenone chemistry, Cell Membrane metabolism, Models, Biological, Saccharomyces cerevisiae drug effects, Saccharomyces cerevisiae metabolism, Zearalenone pharmacokinetics
Abstract

Three models based on sigmoidal plotting were tested for their ability to describe zearalenone adsorption on Saccharomyces cerevisiae cell walls in vitro. All three models closely fitted the experimental data, but Hill's equation gave the most accurate parameters, and provided information on the physical and chemical mechanisms involved in the adsorption of mycotoxin on yeast cell walls.

Published
2003
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43. Energy model and metabolic flux analysis for autotrophic nitrifiers.

Author

Poughon L, Dussap CG, and Gros JB

Subjects
Ammonia metabolism, Biomass, Carbon Dioxide metabolism, Cell Compartmentation, Electron Transport, Energy Metabolism, Nitrites metabolism, Nitrogen metabolism, Oxidation-Reduction, Protons, Reproducibility of Results, Models, Biological, Nitrobacter metabolism, Nitrogen Fixation physiology, Nitrosomonas metabolism
Abstract

The behavior of pure cultures of nitrifying microorganisms under autotrophic growth operating conditions was investigated and the relations between their energy metabolism and their anabolism analyzed by means of metabolic network computation. The description of the metabolism of the nitrifiers is extended to their energy metabolism by introducing compartmentalization (cytoplasmic and periplasmic sides) and studying coupling between the electron transport chain and the proton gradient generation. The energy model of Nitrosomonas and Nitrobacter was developed based on the oxidoreduction reactions known to be involved. The electron transport chains and the associated proton translocation for these models are described. Several possible hypotheses are analyzed and discussed concerning the thermodynamic consistency of all the oxidoreduction reactions. For Nitrosomonas, the most delicate point is the second step of hydroxylamine oxidation. For Nitrobacter a new energy model is proposed in which NO plays an important role as node in the distribution of electrons from NO(2)(-) oxidation to the membrane electron transport chain. The compartmentalization enables us to consider a proton gradient dissipation flux as the expression of the overall energy loss in metabolic analysis (the so-called maintenance phenomena). The energy model (electron transport chain, proton gradient) is associated with an overall description of the metabolism of Nitrosomonas and Nitrobacter in terms of metabolic flux calculation. This representation demonstrates that a maintenance in nitrifiers expressed as a proton leak is no higher than for other aerobes. The yields calculated from the energy models integrated with the metabolic models of nitrifiers are consistent with the experimental yields in the literature., (Copyright 2001 John Wiley & Sons, Inc.)

Published
2001

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