Your search keyword '"Smits, Theo"' showing total 20 results

1. Broad diversity of bacteria degrading 17ß-estradiol-3-sulfate isolated from river sediment and biofilm at a wastewater treatment plant discharge.

Author

Mainetti T, Palmisano M, Rezzonico F, Stres B, Kern S, and Smits THM

Subjects

Estradiol analysis, Estradiol metabolism, Water Pollutants, Chemical analysis, Water Pollutants, Chemical metabolism, Water Purification, Bacteria classification, Bacteria genetics, Biodiversity, Biofilms, Estradiol analogs & derivatives, Geologic Sediments microbiology

Abstract

Conjugated estrogens, such as 17β-estradiol-3-sulfate (E2-3S), can be released into aquatic environments through wastewater treatment plants (WWTP). There, they are microbiologically degraded into free estrogens, which can have harmful effects on aquatic wildlife. Here, the degradation of E2-3S in environmental samples taken upstream, downstream and at the effluent of a WWTP was assessed. Sediment and biofilm samples were enriched for E2-3S-degrading microorganisms, yielding a broad diversity of bacterial isolates, including known and novel degraders of estrogens. Since E2-3S-degrading bacteria were also isolated in the sample upstream of the WWTP, the WWTP does not influence the ability of the microbial community to degrade E2-3S., (© 2021. The Author(s).)

Published

2021

2. Environmental parameters and microbial community profiles as indication towards microbial activities and diversity in aquaponic system compartments.

Author

Schmautz Z, Espinal CA, Bohny AM, Rezzonico F, Junge R, Frossard E, and Smits THM

Subjects

Aerobiosis, Anaerobiosis, Animals, Archaea metabolism, Bacteria metabolism, Carbon metabolism, Microbiota, Nitrogen metabolism, Oxygen metabolism, Water Microbiology, Archaea growth & development, Bacteria growth & development, Biofilms growth & development, Plants microbiology, Tilapia microbiology

Abstract

Background: An aquaponic system couples cultivation of plants and fish in the same aqueous medium. The system consists of interconnected compartments for fish rearing and plant production, as well as for water filtration, with all compartments hosting diverse microbial communities, which interact within the system. Due to the design, function and operation mode of the individual compartments, each of them exhibits unique biotic and abiotic conditions. Elucidating how these conditions shape microbial communities is useful in understanding how these compartments may affect the quality of the water, in which plants and fish are cultured., Results: We investigated the possible relationships between microbial communities from biofilms and water quality parameters in different compartments of the aquaponic system. Biofilm samples were analyzed by total community profiling for bacterial and archaeal communities. The results implied that the oxygen levels could largely explain the main differences in abiotic parameters and microbial communities in each compartment of the system. Aerobic system compartments are highly biodiverse and work mostly as a nitrifying biofilter, whereas biofilms in the anaerobic compartments contain a less diverse community. Finally, the part of the system connecting the aerobic and anaerobic processes showed common conditions where both aerobic and anaerobic processes were observed., Conclusion: Different predicted microbial activities for each compartment were found to be supported by the abiotic parameters, of which the oxygen saturation, total organic carbon and total nitrogen differentiated clearly between samples from the main aerobic loop and the anaerobic compartments. The latter was also confirmed using microbial community profile analysis.

Published

2021

3. Roadmap for naming uncultivated Archaea and Bacteria.

Author

Murray AE, Freudenstein J, Gribaldo S, Hatzenpichler R, Hugenholtz P, Kämpfer P, Konstantinidis KT, Lane CE, Papke RT, Parks DH, Rossello-Mora R, Stott MB, Sutcliffe IC, Thrash JC, Venter SN, Whitman WB, Acinas SG, Amann RI, Anantharaman K, Armengaud J, Baker BJ, Barco RA, Bode HB, Boyd ES, Brady CL, Carini P, Chain PSG, Colman DR, DeAngelis KM, de Los Rios MA, Estrada-de Los Santos P, Dunlap CA, Eisen JA, Emerson D, Ettema TJG, Eveillard D, Girguis PR, Hentschel U, Hollibaugh JT, Hug LA, Inskeep WP, Ivanova EP, Klenk HP, Li WJ, Lloyd KG, Löffler FE, Makhalanyane TP, Moser DP, Nunoura T, Palmer M, Parro V, Pedrós-Alió C, Probst AJ, Smits THM, Steen AD, Steenkamp ET, Spang A, Stewart FJ, Tiedje JM, Vandamme P, Wagner M, Wang FP, Yarza P, Hedlund BP, and Reysenbach AL

Subjects

Archaea genetics, Bacteria genetics, DNA, Bacterial, Metagenome, Phylogeny, Prokaryotic Cells classification, Sequence Analysis, DNA, Terminology as Topic, Archaea classification, Bacteria classification

Abstract

The assembly of single-amplified genomes (SAGs) and metagenome-assembled genomes (MAGs) has led to a surge in genome-based discoveries of members affiliated with Archaea and Bacteria, bringing with it a need to develop guidelines for nomenclature of uncultivated microorganisms. The International Code of Nomenclature of Prokaryotes (ICNP) only recognizes cultures as 'type material', thereby preventing the naming of uncultivated organisms. In this Consensus Statement, we propose two potential paths to solve this nomenclatural conundrum. One option is the adoption of previously proposed modifications to the ICNP to recognize DNA sequences as acceptable type material; the other option creates a nomenclatural code for uncultivated Archaea and Bacteria that could eventually be merged with the ICNP in the future. Regardless of the path taken, we believe that action is needed now within the scientific community to develop consistent rules for nomenclature of uncultivated taxa in order to provide clarity and stability, and to effectively communicate microbial diversity.

Published

2020

4. Microbial diversity in different compartments of an aquaponics system.

Author

Schmautz Z, Graber A, Jaenicke S, Goesmann A, Junge R, and Smits TH

Subjects

Animals, Bacteria classification, Biodiversity, Biofilms, Nitrification, Aquaculture, Bacteria isolation & purification, Fishes microbiology, Hydroponics, Plant Roots microbiology

Abstract

Aquaponics is a solution for sustainable production of fish and plants in a single semi-closed system, where nutrient-rich water from the aquaculture provides nutrients for plant growth. We examined the microbial communities within an experimental aquaponics system. Whereas the fish feces contained a separate community dominated by bacteria of the genus Cetobacterium, the samples from plant roots, biofilter, and periphyton were more similar to each other, while the communities were more diverse. Detailed examination of the data gave the first indications to functional groups of organisms in the different compartments of the aquaponic system. As other nitrifiers other than members of the genus Nitrospira were only present at low numbers, it was anticipated that Nitrospirae may perform the nitrification process in the biofilm.

Published

2017

5. Different bacterial strategies to degrade taurocholate.

Author

Rösch V, Denger K, Schleheck D, Smits TH, and Cook AM

Subjects

Amidohydrolases metabolism, Bacteria genetics, Bacteria growth & development, Bacteria isolation & purification, Biodegradation, Environmental, Carbon metabolism, DNA, Bacterial genetics, DNA, Ribosomal genetics, Genes, rRNA, Genotype, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacteria enzymology, Cholates metabolism, Taurocholic Acid metabolism

Abstract

Aerobic enrichment cultures with taurocholate or alkanesulfonates as sole sources of carbon and energy for growth were successful and yielded nine bacterial isolates, all of which utilized taurocholate. Growth was complex and involved not only many, usually transient, excretion products but also sorption of taurocholate and cholate to cells. Three metabolic strategies to dissimilate taurocholate were elucidated, all of which involved bile salt hydrolase cleaving taurocholate to cholate and taurine. Comamonas testosteroni KF-1 utilized both the taurine and the cholate moieties for growth. Pseudomonas spp., e.g. strain TAC-K3 and Rhodococcus equi TAC-A1 grew with the cholate moiety and released taurine quantitatively. Delftia acidovorans SPH-1 utilized the taurine moiety and released cholate.

Published

2008

6. Dissimilation of C3-sulfonates.

Author

Cook AM, Denger K, and Smits TH

Subjects

Alkanesulfonic Acids chemistry, Alkanesulfonic Acids metabolism, Cysteic Acid chemistry, Cysteic Acid metabolism, Models, Biological, Molecular Structure, Pyruvates chemistry, Pyruvates metabolism, Sulfates chemistry, Sulfates metabolism, Sulfite Dehydrogenase metabolism, Sulfites chemistry, Sulfites metabolism, Sulfonic Acids chemistry, Bacteria metabolism, Sulfonic Acids metabolism

Abstract

Cysteate and sulfolactate are widespread natural products in the environment, while propanesulfonate, 3-aminopropanesulfonate and propane-1,3-disulfonate are xenobiotics. While some understanding of the bacterial assimilation of cysteate sulfur has been achieved, details of the dissimilation of cysteate and sulfolactate by microbes together with information on the degradation of the xenobiotics have only recently become available. This minireview centres on bacterial catabolism of the carbon moiety in these C(3)-sulfonates and on the fate of the sulfonate group. Three mechanisms of desulfonation have been established. Firstly, cysteate is converted via sulfopyruvate to sulfolactate, which is desulfonated to pyruvate and sulfite; the latter is oxidized to sulfate by a sulfite dehydrogenase and excreted as sulfate in Paracoccus pantotrophus NKNCYSA. Secondly, sulfolactate can be converted to cysteate, which is cleaved in a pyridoxal 5'-phosphate-coupled reaction to pyruvate, sulfite and ammonium ions; in Silicibacter pomeroyi DSS-3, the sulfite is excreted largely as sulfite. Both desulfonation reactions seem to be widespread. The third desulfonation mechanism is oxygenolysis of, e.g. propanesulfonate(s), about which less is known.

Published

2006

7. Taking the fungal highway: mobilization of pollutant-degrading bacteria by fungi.

Author

Kohlmeier S, Smits TH, Ford RM, Keel C, Harms H, and Wick LY

Subjects

Agar, Biodegradation, Environmental, Biological Transport physiology, Movement, Species Specificity, Ascomycota physiology, Bacteria metabolism, Environmental Pollution prevention & control, Hyphae physiology, Polycyclic Aromatic Hydrocarbons metabolism

Abstract

The capacity of fungi to serve as vectors for the dispersion of pollutant-degrading bacteria was analyzed in laboratory model systems mimicking water-saturated (agar surfaces) and unsaturated soil environments (glass-bead-filled columns). Two common soil fungi (Fusarium oxysporum and Rhexocercosporidium sp.) forming hydrophilic and hydrophobic mycelia, respectively, and three polycyclic aromatic hydrocarbon degrading bacteria (Achromobacter sp. SK1, Mycobacterium frederiksbergense LB501TG, and Sphingomonas sp. L138) were selected based on the absence of mutual antagonistic effects. It was shown that fungal hyphae act as vectors for bacterial transport with mobilization strongly depending on the specific microorganisms chosen: The motile strain Achromobacter sp. SK1 was most efficiently spread along hyphae of hydrophilic F. oxysporum in both model systems with transport velocities of up to 1 cm d(-1), whereas no dispersion of the two nonmotile strains was observed in the presence of F. oxysporum. By contrast, none of the bacteria was mobilized along the hydrophobic mycelia of Rhexocercosporidium sp. growing on agar surfaces. In column experiments however, strain SK1 was mobilized by Rhexocercosporidium sp. It is hypothesized that bacteria may move by their intrinsic motilitythrough continuous (physiological) liquid films forming around fungal hyphae. The results of this study suggest that the specific stimulation of indigenous fungi may be a strategy to mobilize pollutant-degrading bacteria leading to their homogenization in polluted soil thereby improving bioremediation.

Published

2005

8. Erwinia species identification using matrix-assisted laser desorption ionization-time of flight mass spectrometry

Author

Rezzonico, Fabio, Duffy, Brion, Smits, Theo H.M., and Pothier, Joël F.

Subjects

Fire blight, bacteria, food and beverages, MALDI-TOF MS, 570: Biologie, Bacterial identification, Taxonomy

Abstract

Rapid and reliable identification of plant pathogenic bacteria is critical for effective implementation of phytosanitary measures. The genus Erwinia includes a number of economically important plant pathogens such as fire blight agent Erwinia amylovora or Asian pear pathogen Erwinia pyrifoliae, together with closely related plant epiphytes of unknown pathogenicity or even with a potential use for biological control like Erwinia tasmaniensis or Erwinia billingiae, respectively. Current laboratory methods to achieve satisfactory identification and discrimination between species within the Erwinia genus are based on the isolation on semi-selective media, serology, specific PCR and gene locus sequencing: these approaches are complicated and time-consuming, often requiring a priori assumptions over the identity of the isolates. Here we present a streamlined approach based on whole-cell Matrix-Assisted Laser Desorption Ionization–Time of Flight Mass Spectrometry (MALDI-TOF MS) based on the AXIMA mass spectrometer of Shimadzu-Biotech Corp that demonstrates the potential of this technology for quick species identification in plant diagnostics within the genus Erwinia.

Published

2017

9. Role of the type VI secretion systems during disease interactions of Erwinia amylovora with its plant host.

Author

Kamber, Tim, Pothier, Joël F., Pelludat, Cosima, Rezzonico, Fabio, Duffy, Brion, and Smits, Theo H. M.

Subjects

ERWINIA amylovora, HOST plants, PLANT-bacteria relationships, APPLE diseases & pests, VIRULENCE of bacteria, CHEMOTAXIS, BACTERIA

Abstract

Background: Type VI secretion systems (T6SS) are widespread among Gram-negative bacteria and have a potential role as essential virulence factors or to maintain symbiotic interactions. Three T6SS gene clusters were identified in the genome of E. amylovora CFBP 1430, of which T6SS-1 and T6SS-3 represent complete T6SS machineries, while T6SS-2 is reduced in its gene content. Results: To assess the contribution of T6SSs to virulence and potential transcriptomic changes of E. amylovora CFBP 1430, single and double mutants in two structural genes were generated for T6SS-1 and T6SS-3. Plant assays showed that mutants in T6SS-3 were slightly more virulent in apple shoots while inducing less disease symptoms on apple flowers, indicating that T6SSs have only a minor effect on virulence of E. amylovora CFBP 1430. The mutations led under in vitro conditions to the differential expression of type III secretion systems, iron acquisition, chemotaxis, flagellar, and fimbrial genes. Comparison of the in planta and in vitro transcriptome data sets revealed a common differential expression of three processes and a set of chemotaxis and motility genes. Additional experiments proved that T6SS mutants are impaired in their motility. Conclusion: These results suggest that the deletion of T6SSs alters metabolic and motility processes. Nevertheless, the difference in lesion development in apple shoots and flower necrosis of T6SS mutants was indicative that T6SSs influences the disease progression and the establishment of the pathogen on host plants. [ABSTRACT FROM AUTHOR]

Published

2017

10. The large universal Pantoea plasmid LPP-1 plays a major role in biological and ecological diversification.

Author

De Maayer, Pieter, Chan, Wai-Yin, Blom, Jochen, Venter, Stephanus N., Duffy, Brion, Smits, Theo H.M., and Coutinho, Teresa A.

Subjects

PATHOGENIC microorganisms, ENDOPHYTES, PLASMIDS, BACTERIA, ANTIBIOSIS

Abstract

Background: Pantoea spp. are frequently isolated from a wide range of ecological niches and have various biological roles, as plant epi- or endophytes, biocontrol agents, plant-growth promoters or as pathogens of both plant and animal hosts. This suggests that members of this genus have undergone extensive genotypic diversification. One means by which this occurs among bacteria is through the acquisition and maintenance of plasmids. Here, we have analyzed and compared the sequences of a large plasmid common to all sequenced Pantoea spp. Results and discussion: The Large Pantoea Plasmids (LPP-1) of twenty strains encompassing seven different Pantoea species, including pathogens and endo-/epiphytes of a wide range of plant hosts as well as insect-associated strains, were compared. The LPP-1 plasmid sequences range in size from ~281 to 794 kb and carry between 238 and 750 protein coding sequences (CDS). A core set of 46 proteins, encompassing 2.2% of the total pan-plasmid (2,095 CDS), conserved among all LPP-1 plasmid sequences, includes those required for thiamine and pigment biosynthesis. Phylogenetic analysis reveals that these plasmids have arisen from an ancestral plasmid, which has undergone extensive diversification. Analysis of the proteins encoded on LPP-1 also showed that these plasmids contribute to a wide range of Pantoea phenotypes, including the transport and catabolism of various substrates, inorganic ion assimilation, resistance to antibiotics and heavy metals, colonization and persistence in the host and environment, pathogenesis and antibiosis. Conclusions: LPP-1 is universal to all Pantoea spp. whose genomes have been sequenced to date and is derived from an ancestral plasmid. LPP-1 encodes a large array of proteins that have played a major role in the adaptation of the different Pantoea spp. to their various ecological niches and their specialization as pathogens, biocontrol agents or benign saprophytes found in many diverse environments. [ABSTRACT FROM AUTHOR]

Published

2012

11. Anaerobic Degradation of Vinyl Chloride in Aquifer Microcosms.

Author

Smits, Theo H. M., Assal, Antoine, Hunkeler, Daniel, and Holliger, Christof

Subjects

VINYL chloride, AQUIFERS, MICROCOSM & macrocosm, ISOTOPE dilution analysis, TRICHLOROETHYLENE, GROUNDWATER pollution, RADIOCHEMICAL analysis, BACTERIA, ORGANIC water pollutants

Abstract

The article presents a study that investigates the essence of anaerobic degradation of vinyl chloride (VC) in aquifer microcosms. It determines other degradation pathways aside from reductive dechlorination which could be present in groundwater contamination plume with trichloroethene as primary contaminant at the site. It indicates that two degradation processes occurred with the increasing importance of reductive dechlorination and suggests that other dechlorination processes like anaerobic oxidation should be considered in the evaluation of VC as well as the isotope analysis which help differentiate the different pathways of VC removal.

Published

2011

12. Dissimilation of C3-sulfonates.

Author

Cook, Alasdair M., Denger, Karin, and Smits, Theo H. M.

Subjects

XENOBIOTICS, METABOLISM, BACTERIA, PROKARYOTES, AMMONIUM ions, MICROBIOLOGY

Abstract

Cysteate and sulfolactate are widespread natural products in the environment, while propanesulfonate, 3-aminopropanesulfonate and propane-1,3-disulfonate are xenobiotics. While some understanding of the bacterial assimilation of cysteate sulfur has been achieved, details of the dissimilation of cysteate and sulfolactate by microbes together with information on the degradation of the xenobiotics have only recently become available. This minireview centres on bacterial catabolism of the carbon moiety in these C3-sulfonates and on the fate of the sulfonate group. Three mechanisms of desulfonation have been established. Firstly, cysteate is converted via sulfopyruvate to sulfolactate, which is desulfonated to pyruvate and sulfite; the latter is oxidized to sulfate by a sulfite dehydrogenase and excreted as sulfate in Paracoccus pantotrophus NKNCYSA. Secondly, sulfolactate can be converted to cysteate, which is cleaved in a pyridoxal 5′-phosphate-coupled reaction to pyruvate, sulfite and ammonium ions; in Silicibacter pomeroyi DSS-3, the sulfite is excreted largely as sulfite. Both desulfonation reactions seem to be widespread. The third desulfonation mechanism is oxygenolysis of, e.g. propanesulfonate(s), about which less is known. [ABSTRACT FROM AUTHOR]

Published

2006

13. Development of a real-time PCR method for quantification of the three genera Dehalobacter, Dehalococcoides, and Desulfitobacterium in microbial communities

Author

Smits, Theo H.M., Devenoges, Christiane, Szynalski, Katia, Maillard, Julien, and Holliger, Christof

Subjects

*BACTERIA, *GENES, *MICROBIOLOGY, *MICROBIAL ecology

Abstract

We developed standard curves based on plasmids containing a 16S rRNA gene of a member of one of the three genera Dehalobacter, Desulfitobacterium, and Dehalococcoides. A large difference in amplification efficiency between the standard curves was observed ranging from 1.5 to 2.0. The total eubacterial 16S rRNA gene copy number determined in a sample DNA by using eubacterial primers and the three standard curves led to differences in the estimated copy numbers of a factor up to 73. However, the amplification efficiencies for one specific standard curve were the same independent of the PCR primer pair used. This allowed the determination of the abundance of a population expressed as fractional number, hence, the percentage of genus-specific copy numbers within the total eubacterial 16S rRNA gene copy numbers. Determination of the fractional numbers in DNA mixtures of known composition showed the accuracy of this approach. The average difference in threshold value between two 10-fold dilutions of DNA of pure cultures, mixtures thereof and of environmental samples was -3.45±0.34, corresponding to an average almost optimal amplification efficiency of 1.95. This indicated that the low amplification efficiency of certain standard curves seemed to be mainly a problem of the plasmid DNA used and not of the 16S rRNA gene of the target genera. [Copyright &y& Elsevier]

Published

2004

14. Characterization of two alkane hydroxylase genes from the marine hydrocarbonoclastic bacterium Alcanivorax borkumensis.

Author

van Beilen, Jan B., Marín, Mercedes M., Smits, Theo H. M., Röthlisberger, Martina, Franchini, Alessandro G., Witholt, Bernard, and Rojo, Fernando

Subjects

BACTERIA, MARINE ecology, HYDROCARBONS, GENES, BIOMASS, PSEUDOMONAS aeruginosa

Abstract

The marine γ-Proteobacterium Alcanivorax borkumensis is highly specialized in the assimilation of aliphatic hydrocarbons, and makes up a large part of the biomass in oil-polluted marine environments. In addition to the previously identified alkane hydroxylase AlkB1, a second alkane hydroxylase (AlkB2) showing 65% identity to the Pseudomonas aeruginosa AlkB2 alkane hydroxylase was identified. Unlike alkB1, alkB2 is not flanked by genes involved in alkane metabolism. Heterologous expression of the A. borkumensis AP1 alkB1 and alkB2 genes showed that they encode functional alkane hydroxylases with substrate ranges similar to those of their P. putida and P. aeruginosa homologues. The transcription initiation sites and levels of the alkB1, alkB2 and alkS mRNA transcripts were determined. Expression of both alkB1 and alkB2 was induced by alkanes, but transcripts corresponding to alkB1 were much more abundant than those of alkB2. An inverted repeat similar to the binding site for the P. putida GPo1 transcriptional activator AlkS was present upstream of the promoters for alkB1 and alkB2, although that of alkB2 was less well conserved, and only the transcriptional fusion of promoter PalkB1 to the reporter gene lacZ efficiently responded to n-octane. Contrary to what has been found for the P. putida GPo1 alkane degradation pathway, expression of the A. borkumensis AP1 alkS gene was not induced by alkanes, and an AlkS binding site was not present upstream of the promoter for alkS. This indicates that, in spite of the clear similarities, the A. borkumensis alk-genes are regulated by a strategy different from that of the P. putida GPo1 alk genes. [ABSTRACT FROM AUTHOR]

Published

2004

15. Environmental parameters and microbial community profiles as indication towards microbial activities and diversity in aquaponic system compartments

Author

Schmautz, Zala, Espinal, Carlos A., Bohny, Andrea M., Rezzonico, Fabio, Junge, Ranka, Frossard, Emmanuel, and Smits, Theo H. M.

Subjects

Bacteria, T-RFLP, Aquaponics, Community analysis, Chemical analysis, 14. Life underwater, 639.8: Aquakultur, Archaea, 6. Clean water

Abstract

Background: An aquaponic system couples cultivation of plants and fish in the same aqueous medium. The system consists of interconnected compartments for fish rearing and plant production, as well as for water filtration, with all compartments hosting diverse microbial communities, which interact within the system. Due to the design, function and operation mode of the individual compartments, each of them exhibits unique biotic and abiotic conditions. Elucidating how these conditions shape microbial communities is useful in understanding how these compartments may affect the quality of the water, in which plants and fish are cultured. Results: We investigated the possible relationships between microbial communities from biofilms and water quality parameters in different compartments of the aquaponic system. Biofilm samples were analyzed by total community profiling for bacterial and archaeal communities. The results implied that the oxygen levels could largely explain the main differences in abiotic parameters and microbial communities in each compartment of the system. Aerobic system compartments are highly biodiverse and work mostly as a nitrifying biofilter, whereas biofilms in the anaerobic compartments contain a less diverse community. Finally, the part of the system connecting the aerobic and anaerobic processes showed common conditions where both aerobic and anaerobic processes were observed. Conclusion: Different predicted microbial activities for each compartment were found to be supported by the abiotic parameters, of which the oxygen saturation, total organic carbon and total nitrogen differentiated clearly between samples from the main aerobic loop and the anaerobic compartments. The latter was also confirmed using microbial community profile analysis.

16. Environmental parameters and microbial community profiles as indication towards microbial activities and diversity in aquaponic system compartments

Author

Schmautz, Zala, Espinal, Carlos A., Bohny, Andrea M., Rezzonico, Fabio, Junge, Ranka, Frossard, Emmanuel, and Smits, Theo H.M.

Subjects

Bacteria, T-RFLP, Aquaponics, Community analysis, Chemical analysis, 14. Life underwater, Archaea, 6. Clean water

Abstract

Background An aquaponic system couples cultivation of plants and fish in the same aqueous medium. The system consists of interconnected compartments for fish rearing and plant production, as well as for water filtration, with all compartments hosting diverse microbial communities, which interact within the system. Due to the design, function and operation mode of the individual compartments, each of them exhibits unique biotic and abiotic conditions. Elucidating how these conditions shape microbial communities is useful in understanding how these compartments may affect the quality of the water, in which plants and fish are cultured. Results We investigated the possible relationships between microbial communities from biofilms and water quality parameters in different compartments of the aquaponic system. Biofilm samples were analyzed by total community profiling for bacterial and archaeal communities. The results implied that the oxygen levels could largely explain the main differences in abiotic parameters and microbial communities in each compartment of the system. Aerobic system compartments are highly biodiverse and work mostly as a nitrifying biofilter, whereas biofilms in the anaerobic compartments contain a less diverse community. Finally, the part of the system connecting the aerobic and anaerobic processes showed common conditions where both aerobic and anaerobic processes were observed. Conclusion Different predicted microbial activities for each compartment were found to be supported by the abiotic parameters, of which the oxygen saturation, total organic carbon and total nitrogen differentiated clearly between samples from the main aerobic loop and the anaerobic compartments. The latter was also confirmed using microbial community profile analysis., BMC Microbiology, 21 (1), ISSN:1471-2180

17. Bacterial sulfite dehydrogenases in organotrophic metabolism: separation and identification in Cupriavidus necator H16 and in Delftia acidovorans SPH-1.

Author

Denger, Karin, Weinitschke, Sonja, Smits, Theo H. M., Schleheck, David, and Cook, Alasdair M.

Subjects

*DEHYDROGENASES, *SULFITES, *SULFUR compounds, *OXIDATION, *ENERGY conservation, *SULFUR, *DENITRIFICATION, *PROKARYOTES, *BACTERIA

Abstract

This article presents a study regarding the bacterial sulfite dehydrogenases in organotropic metabolism. It discusses that the utilization of organosulfonates as carbon sources by nitrate-reducing bacteria usually involves an uncharacterized and measurable sulfite dehydrogenase. The prokaryotic enzymes sulfite dehydrogenases are usually linked with lithotropic growth involving energy conservation from the oxidation of reduced inorganic sulfur species or with the anoxic phototrophic oxidation of inorganic sulfur species.

Published

2008

18. The sulfonated osmolyte N-methyltaurine is dissimilated by Alcaligenes faecalis and by Paracoccus versutus with release of methylamine.

Author

Weinitschke, Sonja, Denger, Karin, Smits, Theo H. M., Hollemeyer, Klaus, and Cook, Alasdair M.

Subjects

*ALCALIGENES, *METHYLTAURINE, *BACTERIA, *CARBON, *METHYLAMINES

Abstract

The article reports on the study that selective enrichments led to the development of bacterial cultures able to use the osmolyte N-methyltaurine as the only source for carbon and energy for aerobic growth. It identified strain MT1 which degraded N-methyltaurine as the only source for growth as Alcaligenes feacalis. Stoichiometric amounts of methylamine were discharged during growth.

Published

2006

19. Dissemination of NDM-producing bacteria in Southern Brazil.

Author

Arend, Lavinia N.V.S., Bergamo, Ricardo, Rocha, Fabiano B., Bail, Larissa, Ito, Carmen, Baura, Valter A., Balsanelli, Eduardo, Pothier, Joël F., Rezzonico, Fabio, Pilonetto, Marcelo, Smits, Theo H.M., and Tuon, Felipe Francisco

Subjects

*KLEBSIELLA pneumoniae, *BACTERIA, *PLASMIDS, *ACINETOBACTER, *PSEUDOMONAS, DEVELOPING countries

Abstract

The dissemination of NDM-1 carbapenemases (New Delhi Metallo-β-lactamase) is a global public health problem, mainly in developing countries. The aim of this study was to characterize the spread of NDM-producing bacteria in the Southern Brazilian states analyzing epidemiological, molecular, and antimicrobial susceptibility aspects. A total of 10,684 carbapenem-resistant isolates of Enterobacterales, Pseudomonas spp. and Acinetobacter spp. obtained from several hospitals in eight cities in Southern Brazil were screened, and 486 NDM-producing bacteria were selected. The incidence varied from 0.5 to 77 cases/100.000 habitants. ST11, ST15, ST340 and ST674 were the most common in K. pneumoniae. A total of 5 plasmids were identified in one K. pneumoniae strain: Col440I, Col440II, IncFIA(HI1), IncFIB(K), IncFIB(pQil)/ IncFII(K), and IncR. The number of patients with NDM-producing bacteria has increased in Southern Brazil, whose gene is present in different plasmids, explaining the expansion of this enzyme. [ABSTRACT FROM AUTHOR]

Published

2023

20. Microbial diversity across compartments in an aquaponic system and its connection to the nitrogen cycle.

Author

Schmautz, Zala, Walser, Jean-Claude, Espinal, Carlos A., Gartmann, Florentina, Scott, Ben, Pothier, Joël F., Frossard, Emmanuel, Junge, Ranka, and Smits, Theo H.M.

Published

2022