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Dive into the research topics where Muriel Cocaign-Bousquet is active.

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Featured researches published by Muriel Cocaign-Bousquet.


Journal of Bacteriology | 2001

Molecular Physiology of Sugar Catabolism in Lactococcus lactis IL1403

Sergine Even; Nic D. Lindley; Muriel Cocaign-Bousquet

The metabolic characteristics of Lactococcus lactis IL1403 were examined on two different growth media with respect to the physiological response to two sugars, glucose and galactose. Analysis of specific metabolic rates indicated that despite significant variations in the rates of both growth and sugar consumption, homolactic fermentation was maintained for all cultures due to the low concentration of either pyruvate-formate lyase or alcohol dehydrogenase. When the ionophore monensin was added to the medium, flux through glycolysis was not increased, suggesting a catabolic flux limitation, which, with the low intracellular concentrations of glycolytic intermediates and high in vivo glycolytic enzyme capacities, may be at the level of sugar transport. To assess transcription, a novel DNA macroarray technology employed RNA labeled in vitro with digoxigenin and detection of hybrids with an alkaline phosphatase-antidigoxigenin conjugate. This method showed that several genes of glycolysis were expressed to higher levels on glucose and that the genes of the mixed-acid pathway were expressed to higher levels on galactose. When rates of enzyme synthesis are compared to transcript concentrations, it can be deduced that some translational regulation occurs with threefold-higher translational efficiency in cells grown on glucose.


Enzyme and Microbial Technology | 1995

Pyruvate Overflow and Carbon Flux Within the Central Metabolic Pathways of Corynebacterium-Glutamicum During Growth on Lactate

Muriel Cocaign-Bousquet; Nicholas D. Lindley

Abstract Growth of Corynebacterium glutamicum was characterized kinetically for chemostat cultures using lactate as the sole carbon substrate, and the concentration profile of various enzymes of central metabolism was established over a range of growth rates. Pyruvate overflow, together with incomplete lactate consumption, was observed under conditions for which the specific activity of pyruvate dehydrogenase no longer increased as a function of the growth rate. Biomass yields at such regimes were close to those obtained under exponential growth in batch cultures and were significantly higher than those associated with low growth rates. This shift in carbon conversion efficiency was correlated with increased malic enzyme and pyruvate carboxylase activities, suggesting the operation of a modified tricarboxylic acid cycle involving malate partitioning between malic enzyme (in conjunction with pyruvate carboxylation to replenish the C4 pool) and malate dehydrogenase. This metabolic deviation would provide the NADPH 2 necessary to sustain the observed biomass yields in the absence of NADH:NADP transhydrogenase activity. An analysis of the energetic potential of such a metabolic network indicates that NADH oxidase plays an important role in modulating the respiratory chain efficiency so as to avoid excessive production of adenosine triphosphate. Carbon flux through the central metabolic pathways of C . glutamicum is clearly a dynamic phenomenon whose regulatory complexity needs to be taken into account for future strain improvement strategies aimed at exploiting this organisms natural capacity to overproduce amino acids.


Applied and Environmental Microbiology | 2009

Staphylococcus aureus Virulence Expression Is Impaired by Lactococcus lactis in Mixed Cultures

Sergine Even; Cathy Charlier; Sébastien Nouaille; Nouri L. Ben Zakour; Marina Cretenet; Fabien J. Cousin; Michel Gautier; Muriel Cocaign-Bousquet; Pascal Loubiere; Yves Le Loir

ABSTRACT Staphylococcus aureus is responsible for numerous food poisonings due to the production of enterotoxins by strains contaminating foodstuffs, especially dairy products. Several parameters, including interaction with antagonistic flora such as Lactococcus lactis, a lactic acid bacterium widely used in the dairy industry, can modulate S. aureus proliferation and virulence expression. We developed a dedicated S. aureus microarray to investigate the effect of L. lactis on staphylococcal gene expression in mixed cultures. This microarray was used to establish the transcriptomic profile of S. aureus in mixed cultures with L. lactis in a chemically defined medium held at a constant pH (6.6). Under these conditions, L. lactis hardly affected S. aureus growth. The expression of most genes involved in the cellular machinery, carbohydrate and nitrogen metabolism, and stress responses was only slightly modulated: a short time lag in mixed compared to pure cultures was observed. Interestingly, the induction of several virulence factors and regulators, including the agr locus, sarA, and some enterotoxins, was strongly affected. This work clearly underlines the complexity of L. lactis antagonistic potential for S. aureus and yields promising leads for investigations into nonantibiotic biocontrol of this major pathogen.


Applied Microbiology and Biotechnology | 1997

Simultaneous consumption of glucose and fructose from sugar mixtures during batch growth of Corynebacterium glutamicum

H. Dominguez; Muriel Cocaign-Bousquet; Nicholas D. Lindley

Abstract Growth of Corynebacterium glutamicum on mixtures of glucose and fructose leads to simultaneous consumption of both sugars in which the uptake of each sugar is directly related to the expression of the corresponding sugar uptake mechanism. The overall rate of sugar uptake was higher on sugar mixtures than on either glucose or fructose alone and was similar to that observed during sucrose metabolism. The results suggest that sugar uptake limits metabolic rates though, in the case of fructose, overflow metabolism of both lactate and dihydroxyacetone was observed. Such products could reflect a higher flux through glycolysis rather than the pentose pathway during catabolism of fructose.


Journal of Bacteriology | 2005

Transcriptome Analysis of the Progressive Adaptation of Lactococcus lactis to Carbon Starvation

Emma Redon; Pascal Loubiere; Muriel Cocaign-Bousquet

Adaptation of Lactococcus lactis towards progressive carbon starvation is mediated by three different types of transcriptomic responses: (i) global responses, i.e., general decreases of functions linked to bacterial growth and lack of induction of the general stress response; (ii) specific responses functionally related to glucose exhaustion, i.e., underexpression of central metabolism genes, induction of alternative sugar transport and metabolism, and induction of the arginine deiminase pathway; and (iii) other responses never described previously during carbon starvation.


Applied and Environmental Microbiology | 2005

Metabolic and Transcriptomic Adaptation of Lactococcus lactis subsp. lactis Biovar diacetylactis in Response to Autoacidification and Temperature Downshift in Skim Milk

Sandy Raynaud; Rémi Perrin; Muriel Cocaign-Bousquet; Pascal Loubiere

ABSTRACT For the first time, a combined genome-wide transcriptome and metabolic analysis was performed with a dairy Lactococcus lactis subsp. lactis biovar diacetylactis strain under dynamic conditions similar to the conditions encountered during the cheese-making process. A culture was grown in skim milk in an anaerobic environment without pH regulation and with a controlled temperature downshift. Fermentation kinetics, as well as central metabolism enzyme activities, were determined throughout the culture. Based on the enzymatic analysis, a type of glycolytic control was postulated, which was shared by most of the enzymes during the growth phase; in particular, the phosphofructokinase and some enzymes of the phosphoglycerate pathway during the postacidification phase were implicated. These conclusions were reinforced by whole-genome transcriptomic data. First, limited enzyme activities relative to the carbon flux were measured for most of the glycolytic enzymes; second, transcripts and enzyme activities exhibited similar changes during the culture; and third, genes involved in alternative metabolic pathways derived from some glycolytic metabolites were induced just upstream of the postulated glycolytic bottlenecks, as a consequence of accumulation of these metabolites. Other transcriptional responses to autoacidification and a decrease in temperature were induced at the end of the growth phase and were partially maintained during the stationary phase. If specific responses to acid and cold stresses were identified, this exhaustive analysis also enabled induction of unexpected pathways to be shown.


Journal of Applied Microbiology | 1997

Influence of end‐products inhibition and nutrient limitations on the growth of Lactococcus lactis subsp. lactis

Pascal Loubiere; Muriel Cocaign-Bousquet; J. Matos; G. Goma; Nicholas D. Lindley

Lactococcus lactis was grown in a simple synthetic medium with glucose as substrate, enabling the precise quantification of each nutrients contribution to growth. As expected, for the growth of lactic acid bacteria, the growth rate decreased progressively during the cultivation after a short period of exponential growth. End‐products of fermentation, predominantly lactate and in minor amounts formate, acetate and ethanol, accumulated within the medium. Growth of the bacterium in fresh media supplemented with these end‐products showed that the concentrations attained in the fermentor had no significant influence on the growth rate. As regards nutrients, vitamins and magnesium were never limiting during the culture. On the other hand, amino acid concentrations decreased, some of them being totally consumed and exhausted from the medium before growth ceased. However, growth in reconstituted media constructed with the amino acid concentrations remaining at different times of cultivation showed that amino acid depletion could not account for the observed growth decrease. Batch culture supernatant fluid was used as cultivation medium. Growth rates observed in supernatant cultures supplemented with various nutrients, compared to non‐supplemented supernatant, showed that no addition improved growth. Finally, it was concluded that in the experimental conditions used in this study, growth inhibition was predominantly due to phenomena other than lactate inhibition and nutritional limitations, and hence associated with unidentified compounds produced in the fermentation.


Applied Microbiology and Biotechnology | 2002

Anaerobic sugar catabolism in Lactococcus lactis: genetic regulation and enzyme control over pathway flux.

Muriel Cocaign-Bousquet; Sergine Even; Nicolas D. Lindley; Pascal Loubiere

Abstract. Lactic acid bacteria and particularly Lactococcus lactis are widely used for the production of lactic acid in fermented foods. Control of the catabolic rate in L. lactis, i.e., the rate of lactic acid production, appears to be determinant for dairy product quality. While the mechanisms involved in control have not been totally elucidated, they seem to depend upon the strain and the growth conditions. Furthermore, it remains unclear whether the catabolic rate is controlled at the level of transcription, translation or enzyme activity. The recent sequencing of the L. lactis genome has brought novel insights to physiologic studies of the bacteria. This review discusses both genetic information and metabolic studies concerning anaerobic sugar catabolism in L. lactis.


Applied and Environmental Microbiology | 2008

Transcriptome Analysis of Lactococcus lactis in Coculture with Saccharomyces cerevisiae

Mathieu Maligoy; Myriam Mercade; Muriel Cocaign-Bousquet; Pascal Loubiere

ABSTRACT The study of microbial interactions in mixed cultures remains an important conceptual and methodological challenge for which transcriptome analysis could prove to be the essential method for improving our understanding. However, the use of whole-genome DNA chips is often restricted to the pure culture of the species for which the chips were designed. In this study, massive cross-hybridization was observed between the foreign cDNA and the specific Lactococcus lactis DNA chip. A very simple method is proposed to considerably decrease this nonspecific hybridization, consisting of adding the microbial partners DNA. A correlation was established between the resulting cross-hybridization and the phylogenetic distance between the microbial partners. The response of L. lactis to the presence of Saccharomyces cerevisiae was analyzed during the exponential growth phase in fermentors under defined growth conditions. Although no differences between growth kinetics were observed for the pure and the mixed cultures of L. lactis, the mRNA levels of 158 genes were significantly modified. More particularly, a strong reorientation of pyrimidine metabolism was observed when L. lactis was grown in mixed cultures. These changes in transcript abundance were demonstrated to be regulated by the ethanol produced by the yeast and were confirmed by an independent method (quantitative reverse transcription-PCR).


Applied and Environmental Microbiology | 2009

Transcriptomic response of Lactococcus lactis in mixed culture with Staphylococcus aureus.

Sébastien Nouaille; Sergine Even; Cathy Charlier; Yves Le Loir; Muriel Cocaign-Bousquet; Pascal Loubiere

ABSTRACT The mechanisms of interaction between Lactococcus lactis and the food pathogen Staphylococcus aureus are of crucial importance, as one major role of lactic acid bacteria (LAB) in fermented foods is to inhibit undesirable and pathogenic flora. It was never questioned if the presence of a pathogen can actively modify the gene expression patterns of LAB in a shared environment. In this study, transcriptome and biochemical analyses were combined to assess the dynamic response of L. lactis in a mixed culture with S. aureus. The presence of S. aureus hardly affected the growth of L. lactis but dramatically modified its gene expression profile. The main effect was related to earlier carbon limitation and a concomitantly lower growth rate in the mixed culture due to the consumption of glucose by both species. More specific responses involved diverse cellular functions. Genes associated with amino acid metabolism, ion transport, oxygen response, menaquinone metabolism, and cell surface and phage expression were differentially expressed in the mixed culture. This study led to new insights into possible mechanisms of interaction between L. lactis and S. aureus. Moreover, new and unexpected effects of L. lactis on the virulence of S. aureus were discovered, as described elsewhere (S. Even, C. Charlier, S. Nouaille, N. L. Ben Zakour, M. Cretenet, F. J. Cousin, M. Gautier, M. Cocaign-Bousquet, P. Loubière, and Y. Le Loir, Appl. Environ. Microbiol. 75:4459-4472, 2009).

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Pascal Loubiere

Institut national des sciences appliquées

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Nicholas D. Lindley

Institut national des sciences appliquées

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Sergine Even

Institut national des sciences appliquées

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Myriam Mercade

Institut national des sciences appliquées

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Nic D. Lindley

Centre national de la recherche scientifique

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Christel Garrigues

Centre national de la recherche scientifique

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Nic D. Lindley

Centre national de la recherche scientifique

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Cathy Charlier

Institut national de la recherche agronomique

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