Your search keyword '"Guillebault D"' showing total 21 results

1. Determination of the efficiency of filtration of cultures from microalgae and bacteria using hollow fiber filters

Author

Consejo Superior de Investigaciones Científicas (España), European Commission, Robla, J. I., García-Hierro, J., Alguacil, Francisco José, Dittami, Simon M., Marie, D., Villa, E., Deragon, E., Guillebault, D., Mengs, G., Medlin, L.K., Consejo Superior de Investigaciones Científicas (España), European Commission, Robla, J. I., García-Hierro, J., Alguacil, Francisco José, Dittami, Simon M., Marie, D., Villa, E., Deragon, E., Guillebault, D., Mengs, G., and Medlin, L.K.

Abstract

The most important question in sampling is “Is the sample representative of the target population?” This question is necessary to understand how valid the sample taken is to the original population and if generalizations can be made from the sample. Samples taken for water quality measurement range from 1 mL for bacterial contamination to 100 mL or up to 1000 L for protozoan parasites. With larger samples taken, the confidence in detecting rare events increases dramatically. Here we illustrate that hollow fiber filters as routinely used for kidney dialysis can be adapted for environmental use. The filters retain all organisms down to viral particles and organic matter above 70 kDA, the molecular cutoff for urea, one of the waste products removed in kidney dialysis. With these filters, 50 liters of water can be filtered in about 90 minutes. Backflush of the filters recovers viable cells with minimal cell lysis that can be processed downstream for molecular analysis. Recovery rates were as high as 89% and 75% for phytoplankton and bacteria, respectively.

Published

2021

2. Determination of the efficiency of filtration of cultures from microalgae and bacteria using hollow fiber filters

Author

Robla, J., primary, García-Hierrro, J., additional, Alguacil, F. J., additional, Dittami, S. M., additional, Marie, D., additional, Villa, E., additional, Deragon, E., additional, Guillebault, D., additional, Mengs, G., additional, and Medlin, L. K., additional

Published

2021

3. Sensitive biosensing of potentially toxic cyanobacteria for risk application in freshwater environments

Author

Herard, F., Sauvagère, S., El Anjoumi el Amrani, A., Guillebault, D., Laplace-Treyture, C., Moreira, S., Ortega Pizarro, A., Rodriguez Cristobal, J. M., Manes, C. L., MICROBIA ENVIRONNEMENT BANYULS FRA, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), CIMERA MADRID ESP, Ecosystèmes aquatiques et changements globaux (UR EABX), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), and IRSTEA BORDEAUX UR EABX FRA

Subjects

TOXICITE, toxicity, BACTERIE, GENETIQUE, sensors, BIOCAPTEUR GENETIQUE, CYANOBACTERIE, ARN, monitoring, SURVEILLANCE, [SDE]Environmental Sciences, GENRE TOXIQUE, rna, CAPTEUR, bacteria, pure lines

Abstract

International audience; Harmful cyanobacterial blooms are a major threat to freshwater ecosystems globally weighing down the Good Environmental Status of waters and risk for human health. Biosensors are a highly promising technology that can produce near real-time measurements that could be used by early warning systems safeguarding human and freshwater ecosystem health. We developed a rapid, sensitive, simple and economical test to identify and daily monitor the blooms of potentially toxic cyanobacteria in aquatic environments based on their genetic identity. This innovative solution comes in a colorimetric biosensor format to quickly and efficiently monitor and sustainably manage the contamination risks of potentially harmful cyanobacteria. The biosensor is a genus-specific ribosomal RNA/DNA probe-based assay of potentially toxic genus and is calibrated to equivalent cell numbers. Here we present the field validation tests results performed in a recreative bathing area in south Paris concerning the detection of Microcystis at different sampling points during summer 2017 campaign. The validation was performed by taxonomic cyanobacteria cell counting present in the samples.

Published

2018

4. Improved method for bacterial cell capture after flow cytometry cell sorting

Author

Guillebault, D., Laghdass, M., Catala, P., Obernosterer, I., and Lebaron, P.

Subjects

Flow cytometry -- Analysis, Bacterial cell walls -- Physiological aspects, Polymerase chain reaction -- Analysis, Biological sciences

Abstract

Fixed cells with different nucleic acid contents and scatter properties are sorted by flow cytometry (FCM). For each sort, 10,000 cells are captured on poly-L-lysine-coated microplates, which have resulted in efficient and reproducible PCR amplification.

Published

2010

5. Morphology and behaviour of dinoflagellate chromosomes during the cell cycle and mitosis

Author

Bhaud, Y., primary, Guillebault, D., additional, Lennon, J., additional, Defacque, H., additional, Soyer-Gobillard, M.O., additional, and Moreau, H., additional

Published

2000

6. Application of the μAqua microarray for pathogenic organisms across a marine/freshwater interface.

Author

Guillebault D and Medlin LK

Subjects

Animals, Water Quality, Cyanobacteria, Fresh Water

Abstract

Monitoring drinking water quality is an important public health issue and pathogenic organisms present a particularly serious health hazard in freshwater bodies. However, many pathogenic bacteria, including cyanobacteria, and pathogenic protozoa can be swept into coastal lagoons and into near-shore marine environments where they continue to grow and pose a health threat to marine mammals and invertebrates. In this study, we tested the suitability of a phylochip (microarray for species detection) developed for freshwater pathogenic organisms to be applied to samples taken across a marine/freshwater interface at monthly intervals for two years. Toxic cyanobacteria and pathogenic protozoa were more numerous in a coastal lagoon than at the freshwater or marine site, indicating that this microarray can be used to detect the presence of these pathogens across a marine/freshwater interface and thus the potential for toxicity to occur within the entire watershed., 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 © 2019. Published by Elsevier B.V.)

Published

2020

7. Harmful phytoplankton diversity and dynamics in an upwelling region (Sagres, SW Portugal) revealed by ribosomal RNA microarray combined with microscopy.

Author

Danchenko S, Fragoso B, Guillebault D, Icely J, Berzano M, and Newton A

Subjects

Animals, Environmental Monitoring, Microscopy, Portugal, Phytoplankton, RNA, Ribosomal

Abstract

The study region in Sagres, SW Portugal, is subject to natural eutrophication of coastal waters by wind-driven upwelling, which stimulates high primary productivity facilitating the recent economic expansion of bivalve aquaculture in the region. However, this economic activity is threatened by harmful algal blooms (HAB) caused by the diatoms Pseudo-nitzschia spp., Dinophysis spp. and other HAB dinoflagellates, all of which can produce toxins, that can induce Amnesic Shellfish Poisoning (ASP), Diarrhetic Shellfish Poisoning (DSP) and Paralytic Shellfish Poisoning (PSP). This study couples traditional microscopy with 18S/28S rRNA microarray to improve the detection of HAB species and investigates the relation between HAB and the specific oceanographic conditions in the region. Good agreement was obtained between microscopy and microarray data for diatoms of genus Pseudo-nitzschia and dinoflagellates Dinophysis spp., Gymnodinium catenatum and raphidophyte Heterosigma akashiwo, with less effective results for Prorocentrum. Microarray provided detection of flagellates Prymnesium spp., Pseudochattonella spp., Chloromorum toxicum and the important HAB dinoflagellates of the genera Alexandrium and Azadinium, with the latter being one of the first records from the study region. Seasonality and upwelling induced by northerly winds were found to be the driving forces of HAB development, with Pseudo-nitzschia spp. causing the risk of ASP during spring and summer upwelling season, and dinoflagellates causing the risk of DSP and PSP during upwelling relaxation, mainly in summer and autumn. The findings were in agreement with the results from toxicity monitoring of shellfish by the Portuguese Institute for Sea and Atmosphere and confirm the suitability of the RNA microarray method for HABs detection and aquaculture management applications., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

8. Molecular detection of harmful cyanobacteria and expression of their toxin genes in Dutch lakes using multi-probe RNA chips.

Author

Van de Waal DB, Guillebault D, Alfonso A, Rodríguez I, Botana LM, Bijkerk R, and Medlin LK

Subjects

Bacterial Toxins genetics, Cyanobacteria genetics, Gene Expression, Harmful Algal Bloom, Lakes, Molecular Typing, Netherlands, RNA Probes, Water Microbiology, Cyanobacteria isolation & purification, Microarray Analysis, RNA, Bacterial

Abstract

Harmful cyanobacterial blooms are a major threat to water quality and human health. Adequate risk assessment is thus required, which relies strongly on comprehensive monitoring. Here, we tested novel multi-probe RNA chips developed in the European project, μAqua, to determine the abundance of harmful cyanobacterial species and expression of selected toxin genes in six Dutch lakes. All of the targeted cyanobacterial genera, except for Planktothrix, were detected using the microarray, with predominance of Dolichospermum and Microcystis signals, of which the former was found across all sites and detected by the probes for Anabaena where it was formerly placed. These were confirmed by microscopic cell counts at three sites, whereas at the other sites, microscopic cell counts were lower. Probe signals of Microcystis showed larger variation across sites but also matched microscopic counts for three sites. At the other sites, microscopic counts were distinctly higher. We detected anatoxin-a in the water at all sites, but unfortunately no genes for this toxin were on this generation of the toxin array. For microcystins, we found none or low concentrations in the water, despite high population densities of putative microcystin producers (i.e. Microcystis, Dolichospermum). The described method requires further testing with a wider range of cyanobacterial communities and toxin concentrations before implementation into routine cyanobacterial risk assessment. Yet, our results demonstrate a great potential for applying multi-probe RNA chips for species as well as toxins to eutrophic waters with high cyanobacterial densities as a routine monitoring tool and as a predictive tool for toxin potential., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

9. Seasonal dynamics of freshwater pathogens as measured by microarray at Lake Sapanca, a drinking water source in the north-eastern part of Turkey.

Author

Akçaalan R, Albay M, Koker L, Baudart J, Guillebault D, Fischer S, Weigel W, and Medlin LK

Subjects

Bacterial Toxins analysis, Cyanobacteria growth & development, Cyanobacteria Toxins, Humans, Lakes chemistry, Marine Toxins analysis, Microcystins analysis, Turkey, Drinking Water microbiology, Environmental Monitoring methods, Lakes microbiology, Seasons, Water Microbiology standards, Water Quality

Abstract

Monitoring drinking water quality is an important public health issue. Two objectives from the 4 years, six nations, EU Project μAqua were to develop hierarchically specific probes to detect and quantify pathogens in drinking water using a PCR-free microarray platform and to design a standardised water sampling program from different sources in Europe to obtain sufficient material for downstream analysis. Our phylochip contains barcodes (probes) that specifically identify freshwater pathogens that are human health risks in a taxonomic hierarchical fashion such that if species is present, the entire taxonomic hierarchy (genus, family, order, phylum, kingdom) leading to it must also be present, which avoids false positives. Molecular tools are more rapid, accurate and reliable than traditional methods, which means faster mitigation strategies with less harm to humans and the community. We present microarray results for the presence of freshwater pathogens from a Turkish lake used drinking water and inferred cyanobacterial cell equivalents from samples concentrated from 40 into 1 L in 45 min using hollow fibre filters. In two companion studies from the same samples, cyanobacterial toxins were analysed using chemical methods and those dates with highest toxin values also had highest cell equivalents as inferred from this microarray study.

Published

2017

10. Monitoring of freshwater toxins in European environmental waters by using novel multi-detection methods.

Author

Rodriguez I, Fraga M, Alfonso A, Guillebault D, Medlin L, Baudart J, Jacob P, Helmi K, Meyer T, Breitenbach U, Holden NM, Boots B, Spurio R, Cimarelli L, Mancini L, Marcheggiani S, Albay M, Akcaalan R, Köker L, and Botana LM

Subjects

Alkaloids, Bacterial Toxins analysis, Bacterial Toxins chemistry, Bridged Bicyclo Compounds, Heterocyclic analysis, Bridged Bicyclo Compounds, Heterocyclic chemistry, Chromatography, Liquid methods, Cyanobacteria growth & development, Cyanobacteria Toxins, Environmental Monitoring instrumentation, Eutrophication, Flow Cytometry, France, Germany, Italy, Limit of Detection, Marine Toxins, Microcystins chemistry, Molecular Structure, Peptides, Cyclic analysis, Peptides, Cyclic chemistry, Tandem Mass Spectrometry methods, Tropanes analysis, Tropanes chemistry, Turkey, Uracil analogs & derivatives, Uracil analysis, Uracil chemistry, Water Pollutants, Chemical chemistry, Environmental Monitoring methods, Fresh Water chemistry, Microcystins analysis, Water Pollutants, Chemical analysis

Abstract

Monitoring the quality of freshwater is an important issue for public health. In the context of the European project μAqua, 150 samples were collected from several waters in France, Germany, Ireland, Italy, and Turkey for 2 yr. These samples were analyzed using 2 multitoxin detection methods previously developed: a microsphere-based method coupled to flow-cytometry, and an ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) method. The presence of microcystins, nodularin, domoic acid, cylindrospermopsin, and several analogues of anatoxin-a (ATX-a) was monitored. No traces of cylindrospermopsin or domoic acid were found in any of the environmental samples. Microcystin-LR and microcystin-RR were detected in 2 samples from Turkey and Germany. In the case of ATX-a derivatives, 75% of samples contained mainly H 2 -ATX-a and small amounts of H 2 -homoanatoxin-a, whereas ATX-a and homoanatoxin-a were found in only 1 sample. These results confirm the presence and wide distribution of dihydro derivatives of ATX-a toxins in European freshwaters. Environ Toxicol Chem 2017;36:645-654. © 2016 SETAC., (© 2016 SETAC.)

Published

2017

11. Microarray (phylochip) analysis of freshwater pathogens at several sites along the Northern German coast transecting both estuarine and freshwaters.

Author

Baudart J, Guillebault D, Mielke E, Meyer T, Tandon N, Fischer S, Weigel W, and Medlin LK

Subjects

Bacterial Toxins genetics, Cyanobacteria classification, Cyanobacteria genetics, Germany, Humans, Bacterial Toxins analysis, Cyanobacteria isolation & purification, Fresh Water microbiology, Microarray Analysis methods, Seawater microbiology

Abstract

Monitoring the quality of drinking water is an important issue for public health. Two of the main objectives of the European Project μAQUA were (i) the development of specific probes to detect and quantify pathogens in drinking water and (ii) the design of standardized sampling programs of water from different sources in Europe in order to obtain sufficient material for downstream analysis. Our phylochip contains barcodes that specifically identify freshwater pathogens for enabling the detection of organisms that can be risks for human health. Monitoring for organisms with molecular tools is rapid, more accurate and more reliable than traditional methods. Rapid detection means that mitigation strategies come into play faster with less harm to the community and to humans. Samples were collected from several waters in France, Germany, Ireland, Italy and Turkey over 2 years. We present microarray results for the presence of freshwater pathogens from brackish and freshwater sites in Northern Germany, and cyanobacterial cell numbers inferred from these sites. In a companion study from the same samples, cyanobacterial toxins were analyzed using two methods and those sites with highest toxin values also had highest cell numbers as inferred from this microarray study.

Published

2017

12. Erratum to: Microarray (phylochip) analysis of freshwater pathogens at several sites along the Northern German coast transecting both estuarine and freshwaters.

Author

Baudart J, Guillebault D, Mielke E, Meyer T, Tandon N, Fischer S, Weigel W, and Medlin LK

Published

2017

13. Electrochemical RNA genosensors for toxic algal species: enhancing selectivity and sensitivity.

Author

Orozco J, Villa E, Manes CL, Medlin LK, and Guillebault D

Subjects

Biosensing Techniques, Electrochemical Techniques, Electrodes, Environmental Monitoring, Gold chemistry, Harmful Algal Bloom, Water Pollutants, Dinoflagellida genetics, RNA, Algal analysis

Abstract

Harmful algal blooms (HABs) are becoming more frequent as climate changes, with tropical species moving northward. Monitoring programs detecting the presence of toxic algae before they bloom are of paramount importance to protect aquatic ecosystems, aquaculture, human health and local economies. Rapid and reliable species identification methods using molecular barcodes coupled to biosensor detection tools have received increasing attention over the past decade as an alternative to the impractical standard microscopic counting-based techniques. This work reports on a PCR amplification-free electrochemical genosensor for the enhanced selective and sensitive detection of RNA from multiple Mediterranean toxic algal species. For a sandwich hybridization (SHA), we designed longer capture and signal probes for more specific target discrimination against a single base-pair mismatch from closely related species and for reproducible signals. We optimized experimental conditions, viz., minimal probe concentration in the SHA on a screen-printed gold electrode and selected the best electrochemical mediator. Probes from 13 Mediterranean dinoflagellate species were tested under optimized conditions and the format further tested for quantification of RNA from environmental samples. We not only enhanced the selectivity and sensitivity of the state-of-the-art toxic algal genosensors but also increased the repertoire of toxic algal biosensors in the Mediterranean, towards an integral and automatic monitoring system., (Copyright © 2016. Published by Elsevier B.V.)

Published

2016

14. Dynamics of phytoplankton communities in eutrophying tropical shrimp ponds affected by vibriosis.

Author

Lemonnier H, Lantoine F, Courties C, Guillebault D, Nézan E, Chomérat N, Escoubeyrou K, Galinié C, Blockmans B, and Laugier T

Subjects

Animals, Bacteria genetics, Cyanobacteria genetics, Cyanobacteria physiology, Diatoms physiology, Eutrophication, New Caledonia, Phylogeny, Ponds, Tropical Climate, Vibrio Infections mortality, Aquaculture, Penaeidae microbiology, Phytoplankton, Vibrio Infections veterinary

Abstract

Tropical shrimp aquaculture systems in New Caledonia regularly face major crises resulting from outbreaks of Vibrio infections. Ponds are highly dynamic and challenging environments and display a wide range of trophic conditions. In farms affected by vibriosis, phytoplankton biomass and composition are highly variable. These conditions may promote the development of harmful algae increasing shrimp susceptibility to bacterial infections. Phytoplankton compartment before and during mortality outbreaks was monitored at a shrimp farm that has been regularly and highly impacted by these diseases. Combining information from flow cytometry, microscopy, pigment and phylogenetic analysis, the presence of Picocyanobacteria, Prasinophyceae and Diatomophyceae were detected as dominant phytoplankton groups and Cryptophyceae, Prymnesiophyceae and Dinophyceae as minor components. At the onset of the first shrimp mortalities, Bacillariophyceae increased while Cyanobacteria, Prymnesiophyceae and Dinophyceae decreased in the water column, followed by proliferation of Prasinophyceae. Several taxa were identified as potential harmful algae (Cyanobacteria, dinoflagellates and Phaeocystis)., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

15. Detection of Human Enteric Viruses in Freshwater from European Countries.

Author

D'Ugo E, Marcheggiani S, Fioramonti I, Giuseppetti R, Spurio R, Helmi K, Guillebault D, Medlin LK, Simeonovski I, Boots B, Breitenbach U, Koker L, Albay M, and Mancini L

Subjects

Enterovirus classification, Enterovirus genetics, Europe, Humans, Polymerase Chain Reaction, Enterovirus isolation & purification, Lakes virology, Rivers virology

Abstract

The transmission of water-borne pathogens typically occurs by a faecal-oral route, through inhalation of aerosols, or by direct or indirect contact with contaminated water. Previous molecular-based studies have identified viral particles of zoonotic and human nature in surface waters. Contaminated water can lead to human health issues, and the development of rapid methods for the detection of pathogenic microorganisms is a valuable tool for the prevention of their spread. The aims of this work were to determine the presence and identity of representative human pathogenic enteric viruses in water samples from six European countries by quantitative polymerase chain reaction (q-PCR) and to develop two quantitative PCR methods for Adenovirus 41 and Mammalian Orthoreoviruses. A 2-year survey showed that Norovirus, Mammalian Orthoreovirus and Adenoviruses were the most frequently identified enteric viruses in the sampled surface waters. Although it was not possible to establish viability and infectivity of the viruses considered, the detectable presence of pathogenic viruses may represent a potential risk for human health. The methodology developed may aid in rapid detection of these pathogens for monitoring quality of surface waters.

Published

2016

16. A validated UPLC-MS/MS method for the surveillance of ten aquatic biotoxins in European brackish and freshwater systems.

Author

Greer B, McNamee SE, Boots B, Cimarelli L, Guillebault D, Helmi K, Marcheggiani S, Panaiotov S, Breitenbach U, Akçaalan R, Medlin LK, Kittler K, Elliott CT, and Campbell K

Subjects

Europe, Humans, Chromatography, High Pressure Liquid, Environmental Monitoring methods, Fresh Water microbiology, Microcystins analysis, Seawater chemistry, Tandem Mass Spectrometry

Abstract

Over the past few decades, there has been an increased frequency and duration of cyanobacterial Harmful Algal Blooms (HABs) in freshwater systems globally. These can produce secondary metabolites called cyanotoxins, many of which are hepatotoxins, raising concerns about repeated exposure through ingestion of contaminated drinking water or food or through recreational activities such as bathing/swimming. An ultra-performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) multi-toxin method has been developed and validated for freshwater cyanotoxins; microcystins-LR, -YR, -RR, -LA, -LY and -LF, nodularin, cylindrospermopsin, anatoxin-a and the marine diatom toxin domoic acid. Separation was achieved in around 9min and dual SPE was incorporated providing detection limits of between 0.3 and 5.6ng/L of original sample. Intra- and inter-day precision analysis showed relative standard deviations (RSD) of 1.2-9.6% and 1.3-12.0% respectively. The method was applied to the analysis of aquatic samples (n=206) from six European countries. The main class detected were the hepatotoxins; microcystin-YR (n=22), cylindrospermopsin (n=25), microcystin-RR (n=17), microcystin-LR (n=12), microcystin-LY (n=1), microcystin-LF (n=1) and nodularin (n=5). For microcystins, the levels detected ranged from 0.001 to 1.51μg/L, with two samples showing combined levels above the guideline set by the WHO of 1μg/L for microcystin-LR. Several samples presented with multiple toxins indicating the potential for synergistic effects and possibly enhanced toxicity. This is the first published pan European survey of freshwater bodies for multiple biotoxins, including two identified for the first time; cylindrospermopsin in Ireland and nodularin in Germany, presenting further incentives for improved monitoring and development of strategies to mitigate human exposure., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

17. Detection of emerging and re-emerging pathogens in surface waters close to an urban area.

Author

Marcheggiani S, D'Ugo E, Puccinelli C, Giuseppetti R, D'Angelo AM, Gualerzi CO, Spurio R, Medlin LK, Guillebault D, Baudart-Lenfant J, Weigel W, Helmi K, and Mancini L

Subjects

Bacteria genetics, Communicable Diseases, Emerging microbiology, Enterovirus genetics, Fresh Water, Humans, Phylogeny, Polymerase Chain Reaction methods, Rivers parasitology, Viruses genetics, Viruses isolation & purification, Bacteria isolation & purification, Enterovirus isolation & purification, Microarray Analysis methods, Rivers microbiology, Water Microbiology

Abstract

Current knowledge about the spread of pathogens in aquatic environments is scarce probably because bacteria, viruses, algae and their toxins tend to occur at low concentrations in water, making them very difficult to measure directly. The purpose of this study was the development and validation of tools to detect pathogens in freshwater systems close to an urban area. In order to evaluate anthropogenic impacts on water microbiological quality, a phylogenetic microarray was developed in the context of the EU project µAQUA to detect simultaneously numerous pathogens and applied to samples from two different locations close to an urban area located upstream and downstream of Rome in the Tiber River. Furthermore, human enteric viruses were also detected. Fifty liters of water were collected and concentrated using a hollow-fiber ultrafiltration approach. The resultant concentrate was further size-fractionated through a series of decreasing pore size filters. RNA was extracted from pooled filters and hybridized to the newly designed microarray to detect pathogenic bacteria, protozoa and toxic cyanobacteria. Diatoms as indicators of the water quality status, were also included in the microarray to evaluate water quality. The microarray results gave positive signals for bacteria, diatoms, cyanobacteria and protozoa. Cross validation of the microarray was performed using standard microbiological methods for the bacteria. The presence of oral-fecal transmitted human enteric-viruses were detected using q-PCR. Significant concentrations of Salmonella, Clostridium, Campylobacter and Staphylococcus as well as Hepatitis E Virus (HEV), noroviruses GI (NoGGI) and GII (NoGII) and human adenovirus 41 (ADV 41) were found in the Mezzocammino site, whereas lower concentrations of other bacteria and only the ADV41 virus was recovered at the Castel Giubileo site. This study revealed that the pollution level in the Tiber River was considerably higher downstream rather than upstream of Rome and the downstream location was contaminated by emerging and re-emerging pathogens.

Published

2015

18. Molecular characterization of iron-containing superoxide dismutases in the heterotrophic dinoflagellate Crypthecodinium cohnii.

Author

Dufernez F, Derelle E, Noël C, Sanciu G, Mantini C, Dive D, Soyer-Gobillard MO, Capron M, Pierce RJ, Wintjens R, Guillebault D, and Viscogliosi E

Subjects

Amino Acid Sequence, Animals, Chlorophyta classification, Chlorophyta enzymology, Chlorophyta genetics, Cloning, Molecular, Dinoflagellida classification, Dinoflagellida genetics, Dinoflagellida metabolism, Evolution, Molecular, Heterotrophic Processes, Molecular Sequence Data, Multigene Family, Phylogeny, Plants classification, Plants enzymology, Plants genetics, Protozoan Proteins chemistry, Protozoan Proteins genetics, Protozoan Proteins isolation & purification, Protozoan Proteins metabolism, Sequence Alignment, Superoxide Dismutase genetics, Superoxide Dismutase metabolism, Dinoflagellida enzymology, Superoxide Dismutase chemistry, Superoxide Dismutase isolation & purification

Abstract

Superoxide dismutases (SODs) are a family of antioxidant enzymes that catalyse the degradation of toxic superoxide radicals in obligate and facultative aerobic organisms. Here, we report the presence of a multi-copy gene family encoding SODs in the heterotrophic dinoflagellate Crypthecodinium cohnii. All the genes identified (sod1 to sod17) have been cloned and sequenced, and shown to encode potentially functional dimeric iron-containing SOD isozymes. Our data revealed a considerable molecular heterogeneity of this enzyme in C. cohnii at both genomic and transcriptional levels. The C. cohnii SOD1, overexpressed in Escherichia coli, was active and its structure obtained by homology modeling using X-ray crystal structures of homologues exhibited the typical fold of dimeric FeSODs. Phylogenetic studies including 110 other dimeric FeSODs and closely related cambialistic dimeric SOD sequences showed that the C. cohnii SODs form a monophyletic group and have all been acquired by the same event of horizontal gene transfer. It also revealed a dichotomy within the C. cohnii SOD sequences that could be explained by an ancestral sod gene duplication followed by subsequent gene duplications within each of the two groups. Enzyme assays of SOD activity indicated the presence of two FeSOD activities in C. cohnii cell lysate whereas MnSOD and Cu/ZnSOD were not detected. These activities contrasted with the SOD repertoire previously characterized in photosynthetic dinoflagellates. To explain these differences, a hypothetical evolutionary scenario is proposed that suggests gains and losses of sod genes in dinoflagellates.

Published

2008

19. The Drosophila Df31 protein interacts with histone H3 tails and promotes chromatin bridging in vitro.

Author

Guillebault D and Cotterill S

Subjects

Animals, Chromatography, Gel, Nucleosomes metabolism, Protein Binding, Chromatin metabolism, Chromosomal Proteins, Non-Histone metabolism, Drosophila Proteins metabolism, Drosophila melanogaster metabolism, Histones metabolism, Nuclear Proteins metabolism

Abstract

Df31 is a small hydrophilic protein from Drosophila melanogaster that can act as a histone chaperone in vitro. The protein is also detected as an integral component of chromatin, present at approximately the same level as histone H1. We have developed a simple assay to measure protein binding to oligonucleosomes and used it to characterise the DF31-oligonucleosome interaction. DF31 bound to chromatin in vitro at a level comparable to that observed in vivo. The DF31-chromatin interaction required the presence of core histone tails but binding was independent of the presence of H1 in the chromatin. Multiple regions of DF31 contributed to the interaction. Df31-chromatin binding still occurred on chromatin containing only H3/4, and cross-linking experiments showed that Df31 made intimate contact with H3, suggesting that this might be the primary contact site. Finally, using immobilised chromatin templates, we showed that DF31 promoted interstrand bridging between two independent oligonucleosome chains. These results provide strong evidence for a structural role of DF31 in chromatin folding and give an indication of the mechanism involved.

Published

2007

20. A new class of transcription initiation factors, intermediate between TATA box-binding proteins (TBPs) and TBP-like factors (TLFs), is present in the marine unicellular organism, the dinoflagellate Crypthecodinium cohnii.

Author

Guillebault D, Sasorith S, Derelle E, Wurtz JM, Lozano JC, Bingham S, Tora L, and Moreau H

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA Primers, Models, Molecular, Molecular Sequence Data, Sequence Homology, Amino Acid, Transcription Factors chemistry, Dinoflagellida metabolism, Transcription Factors metabolism

Abstract

Dinoflagellates are marine unicellular eukaryotes that exhibit unique features including a very low level of basic proteins bound to the chromatin and the complete absence of histones and nucleosomal structure. A cDNA encoding a protein with a strong homology to the TATA box-binding proteins (TBP) has been isolated from an expressed sequence tag library of the dinoflagellate Crypthecodinium cohnii. The typical TBP repeat signature and the amino acid motives involved in TFIIA and TFIIB interactions were conserved in this new TBP-like protein. However, the four phenylalanines known to interact with the TATA box were substituted with hydrophilic residues (His(77), Arg(94), Tyr(171), Thr(188)) as has been described for TBP-like factors (TLF)/TBP-related proteins (TRP). A phylogenetic analysis showed that cTBP is intermediate between TBP and TLF/TRP protein families, and the structural similarity of cTBP with TLF was confirmed by low affinity binding to a consensus' TATA box in an equivalent manner to that usually observed for TLFs. Six 5'-upstream gene regions of dinoflagellate genes have been analyzed and neither a TATA box nor a consensus-promoting element could be found within these different sequences. Our results showed that cTBP could bind stronger to a TTTT box sequence than to the canonical TATA box, especially at high salt concentration. Same binding results were obtained with a mutated cTBP (mcTBP), in which the four phenylalanines were restored. To our knowledge, this is the first description of a TBP-like protein in a unicellular organism, which also appears as the major form of TBP present in C. cohnii.

Published

2002

21. Role of nuclear WW domains and proline-rich proteins in dinoflagellate transcription.

Author

Guillebault D, Derelle E, Bhaud Y, and Moreau H

Subjects

Amino Acid Sequence, Animals, Cell Nucleus metabolism, DNA metabolism, Dinoflagellida genetics, Humans, Ligands, Mice, Molecular Sequence Data, Nuclear Proteins genetics, Phosphorylation, Proline, Proline-Rich Protein Domains, Protein Structure, Tertiary, Protozoan Proteins genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Sequence Homology, Amino Acid, Transcription Factors genetics, Transcription, Genetic, Dinoflagellida metabolism, Drosophila Proteins, Gene Expression Regulation, Helix-Loop-Helix Motifs, Nuclear Proteins metabolism, Peptides metabolism, Protozoan Proteins metabolism, Transcription Factors metabolism

Abstract

Dinoflagellates are unique among eukaryotes in their lack of histones and nucleosomes, and permanently condensed chromosomes. These unusual features raise questions as how chromatin condensation and gene expression are achieved. In this study, we investigated nuclear proteins potentially implicated in the regulation of the transcription. Dinap1 is a dinoflagellate nuclear protein that has a WW domain and is synthesized mainly in G1 and S phases of the cell cycle. In this study, we found that Dip1, a proline-rich potential ligand of Dinap1, and DapC, a Dip1 potential ligand, were both present in the nucleus of Crypthecodinium cohnii during the G1 phase. Dip1 contained a PPXY motif, and its domain organization was similar to that of the splicing factor FBP21 in that it possessed one zinc finger and two WW domains. Although DapC has no known homolog, 22 repeats of a PPXPXGX heptapeptide were identified at the N-terminus, and this structure is similar to that of the C-terminal part of the mouse splicing factor SAP62. Dinap1 was co-precipitated with Dip1 and DapC in vitro and in vivo, but despite their nuclear location, these three proteins did not bind directly to DNA. Dinap1 activated up to 40% of the basal transcription activity of C. cohnii in an in vitro assay, whereas DapC inhibited it by 40% and Dip1 had no effect. These dinoflagellate proteins appear to be the subunits of a nuclear complex that may be involved in regulating transcription.

Published

2001