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28 results on '"Meer, Jan Roelof van der"'

1. The clc element of pseudomonas sp. strain B13, a genomic island with various catabolic properties

Author

Galliard, Muriel, Vallaeys, Tatiana, Vorholter, Frank Jorg, Minoia, Marco, Werlen, Christoph, Sentchilo, Vladimir, Puhler, Alfred, and Meer, Jan Roelof van der

Subjects
Pseudomonas -- Genetic aspects, Bacterial genetics -- Research, DNA -- Research, Biological sciences
Abstract

Pseudomonas sp. strain B13 is a bacterium known to degrade chloroaromatic compounds. The properties to use 3- and 4-chlorocatechol are determined by a self-transferable DNA element, the clc element, which normally resides at two locations in the cell's chromosome. Here we report the complete nucleotide sequence of the clc element, demonstrating the unique catabolic properties while showing its relatedness to genomic islands and integrative and conjugative elements rather than to other known catabolic plasmids. As far as catabolic functions, the clc element harbored, in addition to the genes for chlorocatechol degradation, a complete functional operon for 2-aminophenol degradation and genes for a putative aromatic compound transport protein and for a muiticomponent aromatic ring dioxygenase similar to anthranilate hydroxylase. The genes for catabolic functions were inducible under various conditions, suggesting a network of catabolic pathway induction. For about half of the open reading frames (ORFs) on the clc element, no clear functional prediction could be given, although some indications were found for functions that were similar to plasmid conjugation. The region in which these ORFs were situated displayed a high overall conservation of nucleotide sequence and gene order to genomic regions in other recently completed bacterial genomes or to other genomic islands. Most notably, except for two discrete regions, the clc element was almost 100% identical over the whole length to a chromosomal region in Burkholderia xenovorans LB400. This indicates the dynamic evolution of this type of element and the continued transition between elements with a more pathogenic character and those with catabolic properties.

Published
2006

2. Biotransformation of various substituted aromatic compounds to chiral dihydrodihydroxy derivatives

Author

Raschke, Henning, Meier, Michael, Burken, Joel G., Hany, Roland, Muller, Markus D., Meer, Jan Roelof van der, and Kohler, Hans-Peter E.

Subjects
Microbial enzymes -- Research, Enantiomers -- Research, Pseudomonas -- Research, Biological sciences
Abstract

The chlorobenzene dioxygenase from Pseudomonas sp. strain P51 converts substituted aromatic compounds to the S configuration at the carbon atom. The enantiomeric excess was higher than the same reaction catalyzed by toluene dioxygenases. This is of interest to the biotechnology industry because cis-dihydrodiols are building blocks for molecules with multiple chiral centers.

Published
2001

3. Transcriptional organization and dynamic expression of the hbpCAD genes, which encode the first three enzymes for 2-hydroxybiphenyl degradation in Pseudomonas azelaica HBP1

Author

Jaspers, Marco C.M., Schmid, Andreas, Sturme, Mark H.J., Goslings, David A.M., Kohler, Hans-Peter E., and Meer, Jan Roelof van der

Subjects
Pseudomonas -- Genetic aspects, Gene expression -- Analysis, Genetic transcription -- Regulation, Enzymes -- Regulation, Biological sciences
Abstract

Two operons of the hbpCAD gene cluster are independently regulated and their expression is mediated by HbpR protein, which requires RNA polymerase-sigma(sup)54 and an integration host factor for complete activation. The transcriptional organization of the gene cluster facilitates orderly expression of the hbp genes and 2-hydroxybiphenyl degradation pathway.

Published
2001

4. Characteization of a second tfd gene cluster for chlorophenol and chlorocatechol metabolism on plasmid pJP4 in Ralstonia eutropha JMP134(pJP4)

Author

Laemmli, Caroline M., Leveau, Johan H.J., Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Soil microbiology -- Research, Genetic transcription -- Analysis, Chlorophenols -- Physiological aspects, Bacterial genetics -- Research, Plasmids -- Genetic aspects, Biological sciences
Abstract

Research reveals a set of five genes localized to 5.9-kb tfdR-tfdK intergenic region of plasmid pJP4 forming a gene cluster. Data point out that the gene cluster encodes enzymes involved in the conversion of 2,4-dichlorophenol to beta-ketoadipate in Ralstonia eutropha JMP134.

Published
2000

5. Molecular diversity of plasmids bearing genes that encode toluene and xylene metabolism in Pseudomonas strains isolated from different contaminated sites in Belarus

Author

Sentchilo, Vladimir S., Perebituk, Alexander N., Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Microbiological research -- Analysis, Plasmids -- Research, Gene expression -- Research, Toluene -- Research, Xylene -- Research, Metabolism -- Analysis, Pseudomonas -- Research, Biological sciences
Abstract

Research has been conducted on the Pseudomonas strains that utilize m-toluate. The results of the isolation of these strains from the oil-contaminated soil samples in Belarus are discussed.

Published
2000

6. HbpR, a new member of the XylR/DmpR subclass within the NtrC family of bacterial transcriptional activators, regulates expression of 2-hydroxybiphenyl metabolism in Pseudomonas azelaica HBP1

Author

Jaspers, Marco C.M., Suske, Winfried A., Schmid, Andreas, Goslings, David A.M., Kohler, Hans-Peter E., and Meer, Jan Roelof van der

Subjects
Bacteriology -- Research, Metabolism -- Analysis, Pseudomonas -- Research, Homology (Biology) -- Analysis, Gene expression -- Research, Biological sciences
Abstract

Research has been conducted on the 2-hydroxybiphenyl and 2,2'-dihydroxybiphenyl degradationin Pseudomonas azelaica. The regulation of this degradation by the regulatory gene hbpR is discussed.

Published
2000

7. cis-Chlorobenzene dihydrodiol dehydrogenase (TcbB) from Pseudomonas sp. strain P51, expressed in Escherichia coli DH5alpha (pTCB149), catalyzes enantioselective dehydrogenase reactions

Author

Raschke, Henning, Fleishmann, Thomas, Meer, Jan Roelof van der, and Kohler, Hans-Peter E.

Subjects
Enantiomers -- Research, Dehydrogenases -- Research, Pseudomonas -- Physiological aspects, Escherichia coli -- Physiological aspects, Enzymes -- Physiological aspects, Cytochemistry -- Research, Biological sciences
Abstract

Pseudomonas sp. strain P51 cis-chlorobenzene dihydrodiol dehydrogenase (CDD)(TcbB) expressed in Escherichia coli DH5alpha (pTCB149) has been found to catalyze enantioselective dehydrogenase reactions. The study was carried out with the object of investigating the potential of CDD for enantiomeric resolution of chiral dihydrodiols. CDD preferentially oxidized the para-halogenated cis-toluene dihydrodiol enantiomers preferentially formed by chlorobenzene dioxygenase (CDO).

Published
1999

8. Evolution of a pathway for chlorobenzene metabolism leads to natural attenuation in contaminated groundwater

Author

Meer, Jan Roelof van der, Werlen, Christoph, Hishino, Shirley F., and Spain, Jim C.

Subjects
Chlorobenzene -- Research, Genetic recombination -- Research, Microbial metabolism -- Research, Biological sciences
Abstract

Various microbial isolation and genetic techniques were used to determine whether chlorobenzene (CB) metabolism is a natural microbial response to contamination with synthetic chemicals. Results indicate that the ability to degrade CB is not an inherent property, but one which has evolved. The evolution is a result of simple horizontal gene transfer and gene recombination between different ancestral strains.

Published
1998

9. Chromosomal integration, tandem amplification, and deamplification in Pseudomonas putida F1 of a 105-kilobase genetic element containing the cholorocatechol degradative genes from Pseudomonas sp. strain B13

Author

Ravatn, Roald, Studer, Sonja, Springael, Dirk, Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Pseudomonas -- Genetic aspects, Bacterial genetics -- Research, Microbial genetics -- Research, Pseudomonas putida -- Genetic aspects, Biological sciences
Abstract

A study was undertaken to determine the unknown characteristics of the transmissible chlorocatechol degradation (clc) gene from the Pseudomonas specie strain B13 utilizing pulse-field gel eletrophoresis, DNA-DNA hybridizations and cosmid mapping. The B13 strain was considered a pseudomonad using the 3-chlorobenzoate as the main source of carbon and energy. Results revealed that clc genes were discovered on a transmissible element and the physical appearance of this element was detected by its tandem amplification in the host strain, P. putida F1.

Published
1998

10. Low-frequency horizontal transfer of an element containing the chlorocatechol degradation genes from Pseudomonas sp. strain B13 to Pseudomonas putida F1 and to indigenous bacteria in laboratory-scale activated-sludge microcosms

Author

Ravatn, Roald, Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Pseudomonas putida -- Research, Bacteria -- Genetic aspects, Bacterial genetics -- Research, Biological sciences
Abstract

A study was conducted to examine low-frequency horizontal transfers of chlorocatechol degradative genes from Pseudomonas sp. strain B13 in activated-sludge microcosms. Matings were carried out with cultures pre-grown on Luria-Bertani medium that was washed and resuspended in Z3 mineral medium. The microcosms were characterized by glass reactors and operated at a volume of about 05. liter of culture medium.

Published
1998

11. The tdfK gene product facilitates uptake of 2,4-dichlorophenoxyacetate by Ralstonia eutropha JMP134(pJP4)

Author

Leveau, Johan H.J., Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Carrier proteins -- Genetic aspects, Bacteria -- Physiological aspects, Absorption (Physiology) -- Research, Biological sciences
Abstract

Ralstonia eutropha is able to grow on 2,4-dichlorophenoxyacetate (2,4-D) as the only source of carbon. The mechanism involved in the uptake of 2,4-D in Ralstonia is investigated by genetic analysis of the pJP4 plasmid. The tfdK gene on this plasmid codes for a product resembling the transport proteins of the major facilitator superfamily. The disruption of this gene reduced 2,4-D assimilation substantially, indicating that it has a role in the uptake of 2,4-D.

Published
1998

12. Development and characterization of a whole-cell bioluminescent sensor for bioavailable middle-chain alkanes in contaminated groundwater samples

Author

Sticher, Patrick, Jaspers, Marco C.M., Stemmler, Konrad, Harms, Hauke, Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Escherichia coli -- Research, Biosensors -- Research, Bioavailability -- Research, Alkanes -- Research, Biological sciences
Abstract

An Escherichia coli whole-cell biosensor was developed for linear alkane detection through the transcriptional fusion of Vibrio harveji promotorless luxAB genes and Pseudomonas oleovorans alkB promoter. Standardized and optimized assays were then employed in evaluating the biosensor strain's ability to detect octane concentrations. The biosensor was also found to be useful in estimating linear akane concentrations in groundwater samples contaminated with oil.

Published
1997

13. Cloning and characterization of the genes encoding nitrilotriacetate monooxygenase of Chelatobacter heintzii ATCC 29600

Author

Knobel, Hans-Rudolf, Egli, Thomas, and Meer, Jan Roelof van der

Subjects
Oxidases -- Genetic aspects, Bacteria -- Genetic aspects, Biological sciences
Abstract

A 6.2-kb DNA fragment with genes for the nitrilotriacetate (NTA) monooxygenase of Chelatobacter heintzii ATCC 29600 was cloned and characterized by DNA sequencing and expression experiments. The nucleotide sequence has three main open reading frames (ORFs). Two of the ORFs could be assigned to the NTA monooxygenase components A and B. The predicted N-terminal amino acid sequences of these ORFs were similar to those determined for the purified components. The deduced gene product of the third ORF had homology in the N-terminal region with the GntR class of bacterial regulator proteins and therefore may encode a regulator protein.

Published
1996

14. Dynamics of denitrification activity of Paracoccus denitrificans in continuous culture during aerobic-anaerobic changes

Author

Baumann, Barbara, Snozzi, Mario, Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Denitrification -- Physiological aspects, Gram-negative bacteria -- Research, Bacteriology -- Cultures and culture media, Bacterial growth -- Research, Biological sciences
Abstract

An analysis of induction and repression of denitrification activity in Paracoccus denitrificans shows that denitrification starts during the transition from aerobic to anaerobic conditions and stops in the reverse process. The transition from aerobic to anaerobic respiration causes an increase in the mRNA levels for the individual denitrification enzymes. The delay nitrite reductase formation, as compared to the formation of nitrate and nitrous oxide reductase, indicates that these three genes have different modes of regulation.

Published
1996

15. Analysis of the binding site of the LysR-type transcriptional activator TcbR on the tcbR and tcbC divergent promoter sequences

Author

Leveau, Johan H.J., Vos, Willem M. de, and Meer, Jan Roelof van der

Subjects
Promoters (Genetics) -- Research, Binding sites (Biochemistry) -- Analysis, DNA-ligand interactions -- Analysis, Biological sciences
Abstract

LysR-type transcriptional activator, TcbR, causes a bend in the binding site of tcbC and tcbR promoter sequences in the DNA strands. The TcbR gene encodes the tcbR activator protein in Pseudomonas sp. strain P51. The TcbR binding sites occupy the regions between -85 and -40 and consist of a LysR-type recognition sequence motif. TcbR treatment of certain DNA regions causes DNaseI digestion to occur, resulting in the bend in the DNA site.

Published
1994

16. Molecular mechanisms of genetic adaptation to xenobiotic compounds

Author

Meer, Jan Roelof van der, de Vos, Willem, Harayama, Shigeaki, and Zehnder, Alexander J.B.

Subjects
Microorganisms -- Evolution, Adaptation (Biology) -- Research, Xenobiotics -- Evaluation, Biological sciences
Abstract

Microorganisms from various areas of the planet had been found to have developed evolutionary changes in the catabolism of manmade compounds. The influence of the amount of xenobiotic compounds introduced by man into the environment on the evolutionary process remains unanswered. However, it was known that gene transfer, mutational drift, and genetic recombination and transposition were the mechanisms that spurred the enviromental adaption.

Published
1992

17. Quantitative chemical biosensing by bacterial chemotaxis in microfluidic chips: Chemotaxis-microfluidic biosensor

Author

Roggo, Clémence, Picioreanu, Cristian, Richard, Xavier, Mazza, Christian, Lintel, Harald van, and Meer, Jan Roelof van der

Abstract

Whole-cell bacterial bioreporters are proposed as alternatives to chemical analysis of, for example, pollutants in environmental compartments. Commonly based on reporter gene induction, bioreporters produce a detectable signal within 30 min to a few hours after exposure to the chemical target, which is impractical for applications aiming at a fast response. In an attempt to attain faster readout but maintain flexibility of chemical targeting, we explored the concept for quantitative chemical sensing by bacterial chemotaxis. Chemotaxis was quantified from enrichment of cells across a 600 µm- wide chemical gradient stabilized by parallel flow in a microfluidic chip, further supported by transport and chemotaxis steady state and kinetic modelling. As proof- of-concept, we quantified Escherichia coli chemotaxis towards serine, aspartate and methylaspartate as a function of attractant concentration and exposure time. E. coli chemotaxis enrichment increased sharply between 0 and 10 µM serine, before saturating at 100 µM. The chemotaxis accumulation rate was maximal at 10 µM serine, leading to observable cell enrichment within 5 min. The potential application for biosensing of environmental toxicants was investigated by quantifying chemotaxis of Cupriavidus pinatubonensis JMP134 towards the herbicide 2,4- dichlorophenoxyacetate. Our results show that bacterial chemotaxis can be quantified on a scale of minutes and may be used for developing faster bioreporter assays.

Published
2018

18. Bacterial transcriptional regulators for degradation pathways of aromatic compounds

Author

Tropel, David and Meer, Jan Roelof van der

Subjects
Aromatic compounds -- Research, Biodegradation -- Research, Genetic transcription -- Research, Microbiological research, Biological sciences
Abstract

The different regulatory systems involved in biodegradation pathways of aromatic compounds linking them to another known protein families are detailed. The information on regulatory systems is used to construct whole-cell living bioreporters that are used to measure the quality of the aqueous, soil, and air environment.

Published
2004

19. Community analysis of ammonia and nitrite oxidizers during start-up of nitritation reactors

Author

Egli, Konrad, Langer, Christian, Siegrist, Hans-Ruedi, Zehnder, Alexander J. B., Wagner, Michael, and Meer, Jan Roelof van der

Subjects
Microbiology -- Research, Microbial populations -- Environmental aspects, Microbial populations -- Genetic aspects, Ammonia -- Physiological aspects, Nitrites -- Physiological aspects, Oxidizing agents -- Physiological aspects, Ribosomal RNA -- Genetic aspects, Bioreactors -- Physiological aspects, Biological sciences
Abstract

Research has been conducted on partial nitrification of ammonium to nitrite under oxic conditions. The authors have investigated the role of pH, low temperature and dilution rate in the formation, composition and activity of ammonia-oxidizing biomass in bioreactors from sewage sludge.

Published
2003

20. Int-B13, an unusual site-specific recombinase of the bacteriophage P4 integrase family, is responsible for chromosomal insertion of the 105-kilobase clc element of Pseudomonas sp. strain B13

Author

Ravatn, Roald, Studer, Sonja, Zehnder, Alexander J.B., and Meer, Jan Roelof van der

Subjects
Bacteriophages -- Genetic aspects, Insertion elements, DNA -- Research, Pseudomonas -- Genetic aspects, Biological sciences
Abstract

Research was conducted to examine the synthesis of a new recombinase gene (Int-B13) of the phage P4 integrase family. A further objective was to demonstrate its function in site-specific integration of the clc element. Results provide evidence that Int-B13 caused the site-specific integrative recombination between the clc element's attachment site and chromosomal attachment sites. It is predicted that the Int-B13 gene causes site-specific chromosomal integration of the complete clc element.

Published
1998

21. Comparative genome analysis of Pseudomonas knackmussii B13, the first bacterium known to degrade chloroaromatic compounds

Author

Miyazaki, Ryo, Bertelli, Claire, Benaglio, Paola, Canton, Jonas, Coi, Nicoló De, Gharib, Walid H., Gjoksi, Bebeka, Goesmann, Alexander, Greub, Gilbert, Harshman, Keith, Linke, Burkhard, Mikulic, Josip, Mueller, Linda, Nicolas, Damien, Robinson-Rechavi, Marc, Rivolta, Carlo, Roggo, Clémence, Roy, Shantanu, Sentchilo, Vladimir, Siebenthal, Alexandra Von, Falquet, Laurent, Meer, Jan Roelof van der, Miyazaki, Ryo, Bertelli, Claire, Benaglio, Paola, Canton, Jonas, Coi, Nicoló De, Gharib, Walid H., Gjoksi, Bebeka, Goesmann, Alexander, Greub, Gilbert, Harshman, Keith, Linke, Burkhard, Mikulic, Josip, Mueller, Linda, Nicolas, Damien, Robinson-Rechavi, Marc, Rivolta, Carlo, Roggo, Clémence, Roy, Shantanu, Sentchilo, Vladimir, Siebenthal, Alexandra Von, Falquet, Laurent, and Meer, Jan Roelof van der

Abstract

Pseudomonas knackmussii B13 was the first strain to be isolated in 1974 that could degrade chlorinated aromatic hydrocarbons. This discovery was the prologue for subsequent characterization of numerous bacterial metabolic pathways, for genetic and biochemical studies, and which spurred ideas for pollutant bioremediation. In this study, we determined the complete genome sequence of B13 using next generation sequencing technologies and optical mapping. Genome annotation indicated that B13 has a variety of metabolic pathways for degrading monoaromatic hydrocarbons including chlorobenzoate, aminophenol, anthranilate and hydroxyquinol, but not polyaromatic compounds. Comparative genome analysis revealed that B13 is closest to Pseudomonas denitrificans and Pseudomonas aeruginosa. The B13 genome contains at least eight genomic islands [prophages and integrative conjugative elements (ICEs)], which were absent in closely related pseudomonads. We confirm that two ICEs are identical copies of the 103 kb self-transmissible element ICEclc that carries the genes for chlorocatechol metabolism. Comparison of ICEclc showed that it is composed of a variable and a ‘core’ region, which is very conserved among proteobacterial genomes, suggesting a widely distributed family of so far uncharacterized ICE. Resequencing of two spontaneous B13 mutants revealed a number of single nucleotide substitutions, as well as excision of a large 220 kb region and a prophage that drastically change the host metabolic capacity and survivability.

Published
2015

22. Sequencing and characterizing the genome of Estrella lausannensis as an undergraduate project: training students and biological insights

Author

Bertelli, Claire, Aeby, Sébastien, Chassot, Bérénice, Clulow, James, Hilfiker, Olivier, Rappo, Samuel, Ritzmann, Sébastien, Schumacher, Paolo, Terrettaz, Céline, Benaglio, Paola, Falquet, Laurent, Farinelli, Laurent, Gharib, Walid H., Goesmann, Alexander, Harshman, Keith, Linke, Burkhard, Miyazaki, Ryo, Rivolta, Carlo, Robinson-Rechavi, Marc, Meer, Jan Roelof van der, Greub, Gilbert, Bertelli, Claire, Aeby, Sébastien, Chassot, Bérénice, Clulow, James, Hilfiker, Olivier, Rappo, Samuel, Ritzmann, Sébastien, Schumacher, Paolo, Terrettaz, Céline, Benaglio, Paola, Falquet, Laurent, Farinelli, Laurent, Gharib, Walid H., Goesmann, Alexander, Harshman, Keith, Linke, Burkhard, Miyazaki, Ryo, Rivolta, Carlo, Robinson-Rechavi, Marc, Meer, Jan Roelof van der, and Greub, Gilbert

Abstract

With the widespread availability of high-throughput sequencing technologies, sequencing projects have become pervasive in the molecular life sciences. The huge bulk of data generated daily must be analyzed further by biologists with skills in bioinformatics and by “embedded bioinformaticians,” i.e., bioinformaticians integrated in wet lab research groups. Thus, students interested in molecular life sciences must be trained in the main steps of genomics: sequencing, assembly, annotation and analysis. To reach that goal, a practical course has been set up for master students at the University of Lausanne: the “Sequence a genome” class. At the beginning of the academic year, a few bacterial species whose genome is unknown are provided to the students, who sequence and assemble the genome(s) and perform manual annotation. Here, we report the progress of the first class from September 2010 to June 2011 and the results obtained by seven master students who specifically assembled and annotated the genome of Estrella lausannensis, an obligate intracellular bacterium related to Chlamydia. The draft genome of Estrella is composed of 29 scaffolds encompassing 2,819,825 bp that encode for 2233 putative proteins. Estrella also possesses a 9136 bp plasmid that encodes for 14 genes, among which we found an integrase and a toxin/antitoxin module. Like all other members of the Chlamydiales order, Estrella possesses a highly conserved type III secretion system, considered as a key virulence factor. The annotation of the Estrella genome also allowed the characterization of the metabolic abilities of this strictly intracellular bacterium. Altogether, the students provided the scientific community with the Estrella genome sequence and a preliminary understanding of the biology of this recently-discovered bacterial genus, while learning to use cutting-edge technologies for sequencing and to perform bioinformatics analyses.

Published
2015

23. Raman FISH

Author

Timmis, Kenneth. N., McGenity, Terry, Meer, Jan Roelof van der, Lorenzo, Victor de, Read, D.S., Huang, W.E., Whiteley, A.S., Timmis, Kenneth. N., McGenity, Terry, Meer, Jan Roelof van der, Lorenzo, Victor de, Read, D.S., Huang, W.E., and Whiteley, A.S.

Abstract

Linking both identity and function within natural microbial communities has long been seen as one of the ultimate goals for microbial ecologists. The phenotypic data obtained from single-cell Raman microspectroscopy can be combined with the phylogenetic resolution of fluorescence in situ hybridization (FISH) to provide a powerful tool for investigating the structure and function of natural microbial communities (Raman-FISH). This chapter provides information about the use of isotopically labeled substrates to track isotope incorporation and hence specific metabolic processes within bacterial functional groups, through the use of Raman-FISH. A general overview of the equipment and techniques necessary for conducting Raman-FISH analysis is followed by a case study highlighting the utility of this technique for discovering the bacterial communities responsible for naphthalene degradation in groundwater microcosms.

Published
2009

24. Errata

Author

Leveau, Johan H.J. and Meer, Jan Roelof van der

Subjects
Biodegradation -- Analysis, Bacterial genetics -- Research, Microbial metabolism -- Genetic aspects, Biological sciences
Published
1997

25. Sequencing and characterizing the genome of Estrella lausannensis as an undergraduate project: training students and biological insights

Author

Bertelli, Claire, Aeby, Sébastien, Chassot, Bérénice, Clulow, James, Hilfiker, Olivier, Rappo, Samuel, Ritzmann, Sébastien, Schumacher, Paolo, Terrettaz, Céline, Benaglio, Paola, Falquet, Laurent, Farinelli, Laurent, Gharib, Walid H., Goesmann, Alexander, Harshman, Keith, Linke, Burkhard, Miyazaki, Ryo, Rivolta, Carlo, Robinson-Rechavi, Marc, Meer, Jan Roelof van der, Greub, Gilbert, Bertelli, Claire, Aeby, Sébastien, Chassot, Bérénice, Clulow, James, Hilfiker, Olivier, Rappo, Samuel, Ritzmann, Sébastien, Schumacher, Paolo, Terrettaz, Céline, Benaglio, Paola, Falquet, Laurent, Farinelli, Laurent, Gharib, Walid H., Goesmann, Alexander, Harshman, Keith, Linke, Burkhard, Miyazaki, Ryo, Rivolta, Carlo, Robinson-Rechavi, Marc, Meer, Jan Roelof van der, and Greub, Gilbert

Abstract

With the widespread availability of high-throughput sequencing technologies, sequencing projects have become pervasive in the molecular life sciences. The huge bulk of data generated daily must be analyzed further by biologists with skills in bioinformatics and by “embedded bioinformaticians,” i.e., bioinformaticians integrated in wet lab research groups. Thus, students interested in molecular life sciences must be trained in the main steps of genomics: sequencing, assembly, annotation and analysis. To reach that goal, a practical course has been set up for master students at the University of Lausanne: the “Sequence a genome” class. At the beginning of the academic year, a few bacterial species whose genome is unknown are provided to the students, who sequence and assemble the genome(s) and perform manual annotation. Here, we report the progress of the first class from September 2010 to June 2011 and the results obtained by seven master students who specifically assembled and annotated the genome of Estrella lausannensis, an obligate intracellular bacterium related to Chlamydia. The draft genome of Estrella is composed of 29 scaffolds encompassing 2,819,825 bp that encode for 2233 putative proteins. Estrella also possesses a 9136 bp plasmid that encodes for 14 genes, among which we found an integrase and a toxin/antitoxin module. Like all other members of the Chlamydiales order, Estrella possesses a highly conserved type III secretion system, considered as a key virulence factor. The annotation of the Estrella genome also allowed the characterization of the metabolic abilities of this strictly intracellular bacterium. Altogether, the students provided the scientific community with the Estrella genome sequence and a preliminary understanding of the biology of this recently-discovered bacterial genus, while learning to use cutting-edge technologies for sequencing and to perform bioinformatics analyses.

26. Quantitative chemical biosensing by bacterial chemotaxis in microfluidic chips: Chemotaxis-microfluidic biosensor

Author

Roggo, Clémence, Picioreanu, Cristian, Richard, Xavier, Mazza, Christian, Lintel, Harald van, Meer, Jan Roelof van der, Roggo, Clémence, Picioreanu, Cristian, Richard, Xavier, Mazza, Christian, Lintel, Harald van, and Meer, Jan Roelof van der

Abstract

Whole-cell bacterial bioreporters are proposed as alternatives to chemical analysis of, for example, pollutants in environmental compartments. Commonly based on reporter gene induction, bioreporters produce a detectable signal within 30 min to a few hours after exposure to the chemical target, which is impractical for applications aiming at a fast response. In an attempt to attain faster readout but maintain flexibility of chemical targeting, we explored the concept for quantitative chemical sensing by bacterial chemotaxis. Chemotaxis was quantified from enrichment of cells across a 600 µm- wide chemical gradient stabilized by parallel flow in a microfluidic chip, further supported by transport and chemotaxis steady state and kinetic modelling. As proof- of-concept, we quantified Escherichia coli chemotaxis towards serine, aspartate and methylaspartate as a function of attractant concentration and exposure time. E. coli chemotaxis enrichment increased sharply between 0 and 10 µM serine, before saturating at 100 µM. The chemotaxis accumulation rate was maximal at 10 µM serine, leading to observable cell enrichment within 5 min. The potential application for biosensing of environmental toxicants was investigated by quantifying chemotaxis of Cupriavidus pinatubonensis JMP134 towards the herbicide 2,4- dichlorophenoxyacetate. Our results show that bacterial chemotaxis can be quantified on a scale of minutes and may be used for developing faster bioreporter assays.

27. Comparative genome analysis of Pseudomonas knackmussii B13, the first bacterium known to degrade chloroaromatic compounds

Author

Miyazaki, Ryo, Bertelli, Claire, Benaglio, Paola, Canton, Jonas, Coi, Nicoló De, Gharib, Walid H., Gjoksi, Bebeka, Goesmann, Alexander, Greub, Gilbert, Harshman, Keith, Linke, Burkhard, Mikulic, Josip, Mueller, Linda, Nicolas, Damien, Robinson-Rechavi, Marc, Rivolta, Carlo, Roggo, Clémence, Roy, Shantanu, Sentchilo, Vladimir, Siebenthal, Alexandra Von, Falquet, Laurent, Meer, Jan Roelof van der, Miyazaki, Ryo, Bertelli, Claire, Benaglio, Paola, Canton, Jonas, Coi, Nicoló De, Gharib, Walid H., Gjoksi, Bebeka, Goesmann, Alexander, Greub, Gilbert, Harshman, Keith, Linke, Burkhard, Mikulic, Josip, Mueller, Linda, Nicolas, Damien, Robinson-Rechavi, Marc, Rivolta, Carlo, Roggo, Clémence, Roy, Shantanu, Sentchilo, Vladimir, Siebenthal, Alexandra Von, Falquet, Laurent, and Meer, Jan Roelof van der

Abstract

Pseudomonas knackmussii B13 was the first strain to be isolated in 1974 that could degrade chlorinated aromatic hydrocarbons. This discovery was the prologue for subsequent characterization of numerous bacterial metabolic pathways, for genetic and biochemical studies, and which spurred ideas for pollutant bioremediation. In this study, we determined the complete genome sequence of B13 using next generation sequencing technologies and optical mapping. Genome annotation indicated that B13 has a variety of metabolic pathways for degrading monoaromatic hydrocarbons including chlorobenzoate, aminophenol, anthranilate and hydroxyquinol, but not polyaromatic compounds. Comparative genome analysis revealed that B13 is closest to Pseudomonas denitrificans and Pseudomonas aeruginosa. The B13 genome contains at least eight genomic islands [prophages and integrative conjugative elements (ICEs)], which were absent in closely related pseudomonads. We confirm that two ICEs are identical copies of the 103 kb self-transmissible element ICEclc that carries the genes for chlorocatechol metabolism. Comparison of ICEclc showed that it is composed of a variable and a ‘core’ region, which is very conserved among proteobacterial genomes, suggesting a widely distributed family of so far uncharacterized ICE. Resequencing of two spontaneous B13 mutants revealed a number of single nucleotide substitutions, as well as excision of a large 220 kb region and a prophage that drastically change the host metabolic capacity and survivability.

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