Your search keyword '"Monchy, Sébastien"' showing total 4 results

1. Genome survey and characterization of endophytic bacteria exhibiting a beneficial effect on growth and development of poplar trees.

Author

Taghavi S, Garafola C, Monchy S, Newman L, Hoffman A, Weyens N, Barac T, Vangronsveld J, and van der Lelie D

Subjects

Biomass, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Genes, rRNA, Genome, Bacterial, Molecular Sequence Data, Phylogeny, Populus growth & development, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Bacteria classification, Bacteria isolation & purification, Bacterial Physiological Phenomena, Populus microbiology, Populus physiology, Symbiosis

Abstract

The association of endophytic bacteria with their plant hosts has a beneficial effect for many different plant species. Our goal is to identify endophytic bacteria that improve the biomass production and the carbon sequestration potential of poplar trees (Populus spp.) when grown in marginal soil and to gain an insight in the mechanisms underlying plant growth promotion. Members of the Gammaproteobacteria dominated a collection of 78 bacterial endophytes isolated from poplar and willow trees. As representatives for the dominant genera of endophytic gammaproteobacteria, we selected Enterobacter sp. strain 638, Stenotrophomonas maltophilia R551-3, Pseudomonas putida W619, and Serratia proteamaculans 568 for genome sequencing and analysis of their plant growth-promoting effects, including root development. Derivatives of these endophytes, labeled with gfp, were also used to study the colonization of their poplar hosts. In greenhouse studies, poplar cuttings (Populus deltoides x Populus nigra DN-34) inoculated with Enterobacter sp. strain 638 repeatedly showed the highest increase in biomass production compared to cuttings of noninoculated control plants. Sequence data combined with the analysis of their metabolic properties resulted in the identification of many putative mechanisms, including carbon source utilization, that help these endophytes to thrive within a plant environment and to potentially affect the growth and development of their plant hosts. Understanding the interactions between endophytic bacteria and their host plants should ultimately result in the design of strategies for improved poplar biomass production on marginal soils as a feedstock for biofuels.

Published

2009

2. The Biphenyl- and 4-Chlorobiphenyl-Catabolic Transposon Tn 4371 , a Member of a New Family of Genomic Islands Related to IncP and Ti Plasmids

Author

Toussaint, Ariane, Merlin, Christophe, Monchy, Sébastien, Benotmane, M. Abderrafi, Leplae, Raphaël, Mergeay, Max, Springael, Dirk, Université libre de Bruxelles (ULB), Institute for Cell and Molecular Biology, University of Edinburgh, Centre d'étude de l'énergie nucléaire (SCK*CEN), and Vlaamse Instelling voor Technologisch Onderzoek [Mol] (VITO)

Subjects

bacteria, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology

Abstract

International audience; ABSTRACT The nucleotide sequence of the biphenyl catabolic transposon Tn 4371 has been completed and analyzed. It confirmed that the element has a mosaic structure made of several building blocks. In addition to previously identified genes coding for a tyrosine recombinase related to phage integrases and for biphenyl degradation enzymes very similar to those of Achromobacter georgiopolitanum KKS102, Tn 4371 carries many plasmid-related genes involved in replication, partition, and other, as-yet-unknown, plasmid functions. One gene cluster contains most of the genes required to express a type IV secretion-mating pair formation apparatus coupled with a TraG ATPase, all of which are related to those found on IncP and Ti plasmids. Orthologues of all Tn 4371 plasmid-related genes and of the tyrosine recombinase gene were found, with a very similar organization, in the chromosome of Ralstonia solanacearum and on the yet-to-be-determined genomic sequences of Erwinia chrysanthemi and Azotobacter vinelandii . In each of these chromosomal segments, conserved segments were separated by different groups of genes, which also differed from the Tn 4371 bph genes. The conserved blocks of genes were also identified, in at least two copies, in the chromosome of Ralstonia metallidurans CH34. Tn 4371 thus appears to represent a new family of potentially mobile genomic islands with a broad host range since they reside in a wide range of soil proteobacteria, including plant pathogens.

Published

2003

3. Microplanktonic Community Structure in a Coastal System Relative to a Phaeocystis Bloom Inferred from Morphological and Tag Pyrosequencing Methods.

Author

Monchy, Sébastien, Grattepanche, Jean-David, Breton, Elsa, Meloni, Dionigia, Sanciu, Giovanna, Chabé, Magali, Delhaes, Laurence, Viscogliosi, Eric, Sime-Ngando, Télesphore, and Christaki, Urania

Subjects

*PHYTOPLANKTON, *BACTERIA, *PRYMNESIOPHYCEAE, *DINOFLAGELLATES, *BIOMASS, *CILIATA

Abstract

Background: Massive phytoplankton blooms, like the recurrent Phaeocystis proliferation observed every year in the Eastern English Channel (EEC), have a significant influence on the overall planktonic community structure and their food web dynamics. As well as being an important area for local fisheries, the EEC is an ideal ecosystem for work on microbial diversity. This is because, although its environmental context is relatively complex, it is reasonably well understood due to several years of monitoring and morphological observations of its planktonic organisms. The objective of our study was to better understand the under-explored microbial eukaryotic diversity relative to the Phaeocystis bloom. Methodology and Principal Findings: The community structure of microplankton (diatoms, haptophytes, ciliates and dinoflagellates) was studied through morphological observations and tag pyrosequencing. During the annual Phaeocystis spring bloom, the phytoplankton biomass increased by 34-fold, while the microzooplankton biomass showed a 4-fold increase, representing on average about 4.6% of the biomass of their phytoplankton prey. Tag pyrosequencing unveiled an extensive diversity of Gymnodiniaceae, with G. spirale and G. fusiformis representing the most abundant reads. An extended diversity of Phaeocystales, with partial 18S rDNA genes sequence identity as low as 85% was found, with taxa corresponding to P. globosa, but also to unknown Phaeocystaceae. Conclusions: Morphological analyses and pyrosequencing were generally in accordance with capturing frequency shifts of abundant taxa. Tag pyrosequencing allowed highlighting the maintenance of microplankton diversity during the Phaeocystis bloom and the increase of the taxa presenting low number of reads (minor taxa) along with the dominant ones in response to biotic and/or abiotic changing conditions. Although molecular approaches have enhanced our perception on diversity, it has come to light that the challenge of modelling and predicting ecological change requires the use of different complementary approaches, to link taxonomic data with the functional roles of microbes in biogeochemical cycles. [ABSTRACT FROM AUTHOR]

Published

2012

4. Metal transport ATPase genes from Cupriavidus metallidurans CH34: a transcriptomic approach.

Author

Monchy, Sébastien, Vallaeys, Tatiana, Bossus, Albert, and Mergeay, Max

Subjects

*BACTERIA, *ZINC, *METALLURGICAL plants, *HEAVY metals, *ADENOSINE triphosphatase

Abstract

Cupriavidus metallidurans strain CH34 is a multiple metal resistant β-proteobacterium isolated from the sediments of a zinc metallurgical plant. This strain possesses a large diversity of heavy-metal-resistance genes that are located mostly on two large plasmids, pMOL28 and pMOL30. The metal efflux ATPases constitute the major mechanism by which metal ions are removed and pumped out from the cytoplasmic pool of thiol groups. The genome of C. metallidurans CH34 contains eight such P1-ATPases. This high number of ATPases, compared with the P1-ATPase content in other micro-organisms, is a typical feature of the adaptation of C. metallidurans CH34 to metal-rich biotopes. We performed a phylogenetic analysis, and used quantitative PCR to study the metal-specific induction of the ATPases genes and, for some of them, their neighbouring genes. One of the ATPases, a homologue of the E. coli zntA gene, was characterized in detail by analysing the phenotypes of zntA mutants in different genetic backgrounds. In addition to the already-reported sensitivity to Zn(II), Cd(II), and Pb(II), zntA mutants also displayed a higher sensitivity to Tl(I) and Bi(III), indicating that the ZntA protein might play a role in the tolerance of very large cations. [ABSTRACT FROM AUTHOR]

Published

2006