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Monique Zagorec - One of the best experts on this subject based on the ideXlab platform.
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Lactobacillus sakei a starter for sausage fermentation a protective culture for meat products
Microorganisms, 2017Co-Authors: Monique Zagorec, Marie ChampomiervergesAbstract:Among lactic acid bacteria of meat products, Lactobacillus sakei is certainly the most studied species due to its role in the fermentation of sausage and its prevalence during cold storage of raw meat products. Consequently, the physiology of this bacterium regarding functions involved in growth, survival, and metabolism during meat storage and processing are well known. This species exhibits a wide genomic diversity that can be observed when studying different strains and on which probably rely its multiple facets in meat products: starter, spoiler, or protective culture. The emerging exploration of the microbial ecology of meat products also revealed the multiplicity of bacterial interactions L. sakei has to face and their various consequences on microbial quality and safety at the end of storage.
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Quantification and efficiency of Lactobacillus sakei strain mixtures used as protective cultures in ground beef
Meat Science, 2014Co-Authors: Stephane Chaillou, S Christieans, M Rivollier, Isabelle Lucquin, Marie-christine Champomier-verges, Monique ZagorecAbstract:Lactobacillus sakei is a lactic acid bacterium, naturally associated with long term storage of fresh meat at low temperature. Here we investigated the effect, on the evolution of pathogenic and spoilage microorganisms in ground beef, of L. sakei cocktails used as bioprotective cultures. We selectively developed a real time quantitative PCR method, allowing the quantification of individual L. sakei strains inoculated in ground meat with specific probes. Six cocktails of three strains were tested to evaluate their effect on the growth of Salmonella enterica Typhimurium, Escherichia coli O157:H7 and Brochothrix thermosphacta at 4°C and 8°C, under vacuum or modified atmosphere packaging. Using plating methods to quantify the different bacterial species, one cocktail showed an effect against S. Typhimurium and E. coli under given conditions. Real time quantitative PCR showed that the three inoculated L. sakei strains had a different growth pattern, and that the association of these three strains indeed impaired growth of S. Typhimurium and E. coli.
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population genetics of Lactobacillus sakei reveals three lineages with distinct evolutionary histories
PLOS ONE, 2013Co-Authors: Marie Champomierverges, Monique Zagorec, Stephane Chaillou, Isabelle Lucquin, Afef NajjariAbstract:Lactobacillus sakei plays a major role in meat fermentation and in the preservation of fresh meat. The large diversity of L. sakei strains represents a valuable and exploitable asset in the development of a variety of industrial applications; however, an efficient method to identify and classify these strains has yet to be developed. In this study, we used multilocus sequence typing (MLST) to analyze the polymorphism and allelic distribution of eight loci within an L. sakei population of 232 strains collected worldwide. Within this population, we identified 116 unique sequence types with an average pairwise nucleotide diversity per site (π) of 0.13%. Results from Structure, goeBurst, and ClonalFrame software analyses demonstrated that the L. sakei population analyzed here is derived from three ancestral lineages, each of which shows evidence of a unique evolutionary history influenced by independent selection scenarios. However, the signature of selective events in the contemporary population of isolates was somewhat masked by the pervasive phenomenon of homologous recombination. Our results demonstrate that lineage 1 is a completely panmictic subpopulation in which alleles have been continually redistributed through the process of intra-lineage recombination. In contrast, lineage 2 was characterized by a high degree of clonality. Lineage 3, the earliest-diverging branch in the genealogy, showed evidence of both clonality and recombination. These evolutionary histories strongly indicate that the three lineages may correspond to distinct ecotypes, likely linked or specialized to different environmental reservoirs. The MLST scheme developed in this study represents an easy and straightforward tool that can be used to further analyze the population dynamics of L. sakei strains in food products.
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adaptive response of Lactobacillus sakei 23k during growth in the presence of meat extracts a proteomic approach
International Journal of Food Microbiology, 2010Co-Authors: Silvina Fadda, Fabienne Baraige, Graciela Vignolo, Régine Talon, Monique Zagorec, Patricia Anglade, Marie ChampomiervergesAbstract:Lactobacillus sakei is a lactic acid bacterium mainly found in meat and meat products. In order to understand the factors favoring its adaptation to meat matrix, growth parameters and survival of the strain L. sakei 23K in the presence of sarcoplasmic or myofibrillar extracts were assessed. Cytosolic proteins putatively involved in the response of this strain to meat proteins were determined using 2D electrophoresis and the significantly regulated proteins were identified by Maldi Tof-MS analyses. From the 31 differentially expressed spots, 16 occurred in the presence of myofibrillar extract while 6 proteins were modulated by the sarcoplasmic extract. Two dipeptidases were overexpressed in the presence of sarcoplasmic proteins, in correlation to the protein degradation patterns obtained by SDS-PAGE. In the presence of the myofibrillar extract, L. sakei 23K overexpressed proteins related to energy and pyrimidine metabolism as well as ala- and tyr-tRNA synthetases, involved in translation, while others corresponding to general stress response, pyrimidine, vitamin and cofactor biosynthesis were down-regulated. The supplementary nutrients furnished by meat extracts modulated the overexpression of proteins related to translation, peptide/amino acid metabolism and energy production while the stress proteins were under regulated. The results obtained here suggest that meat proteins would not represent a stress environment per se for L. sakei 23K in contrast to the harsh conditions during meat processing. This study has extended the understanding of the molecular responses and growth mechanisms of L. sakei 23K in the presence of meat proteins. The transference of genomic information into useful biological insight is an important step for the selection of well-adapted strains for the achievement of high-quality fermented products.
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primary metabolism in Lactobacillus sakei food isolates by proteomic analysis
BMC Microbiology, 2010Co-Authors: Anette Mcleod, Marie Champomierverges, Monique Zagorec, Kristine Naterstad, Lars AxelssonAbstract:Lactobacillus sakei is an important food-associated lactic acid bacterium commonly used as starter culture for industrial meat fermentation, and with great potential as a biopreservative in meat and fish products. Understanding the metabolic mechanisms underlying the growth performance of a strain to be used for food fermentations is important for obtaining high-quality and safe products. Proteomic analysis was used to study the primary metabolism in ten food isolates after growth on glucose and ribose, the main sugars available for L. sakei in meat and fish. Proteins, the expression of which varied depending on the carbon source were identified, such as a ribokinase and a D-ribose pyranase directly involved in ribose catabolism, and enzymes involved in the phosphoketolase and glycolytic pathways. Expression of enzymes involved in pyruvate and glycerol/glycerolipid metabolism were also affected by the change of carbon source. Interestingly, a commercial starter culture and a protective culture strain down-regulated the glycolytic pathway more efficiently than the rest of the strains when grown on ribose. The overall two-dimensional gel electrophoresis (2-DE) protein expression pattern was similar for the different strains, though distinct differences were seen between the two subspecies (sakei and carnosus), and a variation of about 20% in the number of spots in the 2-DE gels was observed between strains. A strain isolated from fermented fish showed a higher expression of stress related proteins growing on both carbon sources. It is obvious from the data obtained in this study that the proteomic approach efficiently identifies differentially expressed proteins caused by the change of carbon source. Despite the basic similarity in the strains metabolic routes when they ferment glucose and ribose, there were also interesting differences. From the application point of view, an understanding of regulatory mechanisms, actions of catabolic enzymes and proteins, and preference of carbon source is of great importance.
Stephane Chaillou - One of the best experts on this subject based on the ideXlab platform.
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Quantification and efficiency of Lactobacillus sakei strain mixtures used as protective cultures in ground beef
Meat Science, 2014Co-Authors: Stephane Chaillou, S Christieans, M Rivollier, Isabelle Lucquin, Marie-christine Champomier-verges, Monique ZagorecAbstract:Lactobacillus sakei is a lactic acid bacterium, naturally associated with long term storage of fresh meat at low temperature. Here we investigated the effect, on the evolution of pathogenic and spoilage microorganisms in ground beef, of L. sakei cocktails used as bioprotective cultures. We selectively developed a real time quantitative PCR method, allowing the quantification of individual L. sakei strains inoculated in ground meat with specific probes. Six cocktails of three strains were tested to evaluate their effect on the growth of Salmonella enterica Typhimurium, Escherichia coli O157:H7 and Brochothrix thermosphacta at 4°C and 8°C, under vacuum or modified atmosphere packaging. Using plating methods to quantify the different bacterial species, one cocktail showed an effect against S. Typhimurium and E. coli under given conditions. Real time quantitative PCR showed that the three inoculated L. sakei strains had a different growth pattern, and that the association of these three strains indeed impaired growth of S. Typhimurium and E. coli.
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population genetics of Lactobacillus sakei reveals three lineages with distinct evolutionary histories
PLOS ONE, 2013Co-Authors: Marie Champomierverges, Monique Zagorec, Stephane Chaillou, Isabelle Lucquin, Afef NajjariAbstract:Lactobacillus sakei plays a major role in meat fermentation and in the preservation of fresh meat. The large diversity of L. sakei strains represents a valuable and exploitable asset in the development of a variety of industrial applications; however, an efficient method to identify and classify these strains has yet to be developed. In this study, we used multilocus sequence typing (MLST) to analyze the polymorphism and allelic distribution of eight loci within an L. sakei population of 232 strains collected worldwide. Within this population, we identified 116 unique sequence types with an average pairwise nucleotide diversity per site (π) of 0.13%. Results from Structure, goeBurst, and ClonalFrame software analyses demonstrated that the L. sakei population analyzed here is derived from three ancestral lineages, each of which shows evidence of a unique evolutionary history influenced by independent selection scenarios. However, the signature of selective events in the contemporary population of isolates was somewhat masked by the pervasive phenomenon of homologous recombination. Our results demonstrate that lineage 1 is a completely panmictic subpopulation in which alleles have been continually redistributed through the process of intra-lineage recombination. In contrast, lineage 2 was characterized by a high degree of clonality. Lineage 3, the earliest-diverging branch in the genealogy, showed evidence of both clonality and recombination. These evolutionary histories strongly indicate that the three lineages may correspond to distinct ecotypes, likely linked or specialized to different environmental reservoirs. The MLST scheme developed in this study represents an easy and straightforward tool that can be used to further analyze the population dynamics of L. sakei strains in food products.
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Intraspecies genomic diversity and natural population structure of the meat-borne lactic acid bacterium Lactobacillus sakei
Applied and Environmental Microbiology, 2009Co-Authors: Stephane Chaillou, Fabienne Baraige, Patricia Anglade, Annemarie Dudez, Marie-christine Champomier-verges, Marie Daty, Rhys Jones, Carl-alfred Alpert, Monique ZagorecAbstract:Lactobacillus sakei is a food-borne bacterium naturally found in meat and fish products. A study was performed to examine the intraspecies diversity among 73 isolates sourced from laboratory collections in several different countries. Pulsed-field gel electrophoresis analysis demonstrated a 25% variation in genome size between isolates, ranging from 1,815 kb to 2,310 kb. The relatedness between isolates was then determined using a PCR-based method that detects the possession of 60 chromosomal genes belonging to the flexible gene pool. Ten different strain clusters were identified that had noticeable differences in their average genome size reflecting the natural population structure. The results show that many different genotypes may be isolated from similar types of meat products, suggesting a complex ecological habitat in which intraspecies diversity may be required for successful adaptation. Finally, proteomic analysis revealed a slight difference between the migration patterns of highly abundant GapA isoforms of the two prevailing L. sakei subspecies (sakei and carnosus). This analysis was used to affiliate the genotypic clusters with the corresponding subspecies. These findings reveal for the first time the extent of intraspecies genomic diversity in L. sakei. Consequently, identification of molecular subtypes may in the future prove valuable for a better understanding of microbial ecosystems in food products.
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identification of Lactobacillus sakei genes induced during meat fermentation and their role in survival and growth
Applied and Environmental Microbiology, 2007Co-Authors: Eric Hufner, Monique Zagorec, Stephane Chaillou, Tobias Markieton, Annemarie Crutzle Coq, Christian HertelAbstract:Lactobacillus sakei is a lactic acid bacterium that is ubiquitous in the food environment and is one of the most important constituents of commercial meat starter cultures. In this study, in vivo expression technology (IVET) was applied to investigate gene expression of L. sakei 23K during meat fermentation. The IVET vector used (pEH100) contained promoterless and transcriptionally fused reporter genes mediating β-glucuronidase activity and erythromycin resistance. A genomic library of L. sakei 23K was established, and the clones were subjected to fermentation in a raw-sausage model. Fifteen in carne-induced fusions were identified. Several genes encoded proteins which are likely to contribute to stress-related functions. One of these genes was involved in acquisition of ammonia from amino acids, and the remaining either were part of functionally unrelated pathways or encoded hypothetical proteins. The construction and use of isogenic mutants in the sausage model suggested that four genes have an impact on the performance of L. sakei during raw-sausage fermentation. Inactivation of the heat shock regulator gene ctsR resulted in increased growth, whereas knockout of the genes asnA2, LSA1065, and LSA1194 resulted in attenuated performance compared to the wild-type strain. The results of our study are the first to provide an insight into the transcriptional response of L. sakei when growing in the meat environment. In addition, this study establishes a molecular basis which allows investigation of bacterial properties that are likely to contribute to the ecological performance of the organism and to influence the final outcome of sausage fermentation.
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the complete genome sequence of the meat borne lactic acid bacterium Lactobacillus sakei 23k
Nature Biotechnology, 2005Co-Authors: Stephane Chaillou, Marie Champomierverges, Monique Cornet, Annemarie Dudez, Veronique Martin, Sophie Beaufils, Emmanuelle Darbonrongere, Robert Bossy, Valentin Loux, Monique ZagorecAbstract:The complete genome sequence of the meat-borne lactic acid bacterium Lactobacillus sakei 23K
Marie Champomierverges - One of the best experts on this subject based on the ideXlab platform.
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Lactobacillus sakei a starter for sausage fermentation a protective culture for meat products
Microorganisms, 2017Co-Authors: Monique Zagorec, Marie ChampomiervergesAbstract:Among lactic acid bacteria of meat products, Lactobacillus sakei is certainly the most studied species due to its role in the fermentation of sausage and its prevalence during cold storage of raw meat products. Consequently, the physiology of this bacterium regarding functions involved in growth, survival, and metabolism during meat storage and processing are well known. This species exhibits a wide genomic diversity that can be observed when studying different strains and on which probably rely its multiple facets in meat products: starter, spoiler, or protective culture. The emerging exploration of the microbial ecology of meat products also revealed the multiplicity of bacterial interactions L. sakei has to face and their various consequences on microbial quality and safety at the end of storage.
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population genetics of Lactobacillus sakei reveals three lineages with distinct evolutionary histories
PLOS ONE, 2013Co-Authors: Marie Champomierverges, Monique Zagorec, Stephane Chaillou, Isabelle Lucquin, Afef NajjariAbstract:Lactobacillus sakei plays a major role in meat fermentation and in the preservation of fresh meat. The large diversity of L. sakei strains represents a valuable and exploitable asset in the development of a variety of industrial applications; however, an efficient method to identify and classify these strains has yet to be developed. In this study, we used multilocus sequence typing (MLST) to analyze the polymorphism and allelic distribution of eight loci within an L. sakei population of 232 strains collected worldwide. Within this population, we identified 116 unique sequence types with an average pairwise nucleotide diversity per site (π) of 0.13%. Results from Structure, goeBurst, and ClonalFrame software analyses demonstrated that the L. sakei population analyzed here is derived from three ancestral lineages, each of which shows evidence of a unique evolutionary history influenced by independent selection scenarios. However, the signature of selective events in the contemporary population of isolates was somewhat masked by the pervasive phenomenon of homologous recombination. Our results demonstrate that lineage 1 is a completely panmictic subpopulation in which alleles have been continually redistributed through the process of intra-lineage recombination. In contrast, lineage 2 was characterized by a high degree of clonality. Lineage 3, the earliest-diverging branch in the genealogy, showed evidence of both clonality and recombination. These evolutionary histories strongly indicate that the three lineages may correspond to distinct ecotypes, likely linked or specialized to different environmental reservoirs. The MLST scheme developed in this study represents an easy and straightforward tool that can be used to further analyze the population dynamics of L. sakei strains in food products.
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adaptive response of Lactobacillus sakei 23k during growth in the presence of meat extracts a proteomic approach
International Journal of Food Microbiology, 2010Co-Authors: Silvina Fadda, Fabienne Baraige, Graciela Vignolo, Régine Talon, Monique Zagorec, Patricia Anglade, Marie ChampomiervergesAbstract:Lactobacillus sakei is a lactic acid bacterium mainly found in meat and meat products. In order to understand the factors favoring its adaptation to meat matrix, growth parameters and survival of the strain L. sakei 23K in the presence of sarcoplasmic or myofibrillar extracts were assessed. Cytosolic proteins putatively involved in the response of this strain to meat proteins were determined using 2D electrophoresis and the significantly regulated proteins were identified by Maldi Tof-MS analyses. From the 31 differentially expressed spots, 16 occurred in the presence of myofibrillar extract while 6 proteins were modulated by the sarcoplasmic extract. Two dipeptidases were overexpressed in the presence of sarcoplasmic proteins, in correlation to the protein degradation patterns obtained by SDS-PAGE. In the presence of the myofibrillar extract, L. sakei 23K overexpressed proteins related to energy and pyrimidine metabolism as well as ala- and tyr-tRNA synthetases, involved in translation, while others corresponding to general stress response, pyrimidine, vitamin and cofactor biosynthesis were down-regulated. The supplementary nutrients furnished by meat extracts modulated the overexpression of proteins related to translation, peptide/amino acid metabolism and energy production while the stress proteins were under regulated. The results obtained here suggest that meat proteins would not represent a stress environment per se for L. sakei 23K in contrast to the harsh conditions during meat processing. This study has extended the understanding of the molecular responses and growth mechanisms of L. sakei 23K in the presence of meat proteins. The transference of genomic information into useful biological insight is an important step for the selection of well-adapted strains for the achievement of high-quality fermented products.
-
primary metabolism in Lactobacillus sakei food isolates by proteomic analysis
BMC Microbiology, 2010Co-Authors: Anette Mcleod, Marie Champomierverges, Monique Zagorec, Kristine Naterstad, Lars AxelssonAbstract:Lactobacillus sakei is an important food-associated lactic acid bacterium commonly used as starter culture for industrial meat fermentation, and with great potential as a biopreservative in meat and fish products. Understanding the metabolic mechanisms underlying the growth performance of a strain to be used for food fermentations is important for obtaining high-quality and safe products. Proteomic analysis was used to study the primary metabolism in ten food isolates after growth on glucose and ribose, the main sugars available for L. sakei in meat and fish. Proteins, the expression of which varied depending on the carbon source were identified, such as a ribokinase and a D-ribose pyranase directly involved in ribose catabolism, and enzymes involved in the phosphoketolase and glycolytic pathways. Expression of enzymes involved in pyruvate and glycerol/glycerolipid metabolism were also affected by the change of carbon source. Interestingly, a commercial starter culture and a protective culture strain down-regulated the glycolytic pathway more efficiently than the rest of the strains when grown on ribose. The overall two-dimensional gel electrophoresis (2-DE) protein expression pattern was similar for the different strains, though distinct differences were seen between the two subspecies (sakei and carnosus), and a variation of about 20% in the number of spots in the 2-DE gels was observed between strains. A strain isolated from fermented fish showed a higher expression of stress related proteins growing on both carbon sources. It is obvious from the data obtained in this study that the proteomic approach efficiently identifies differentially expressed proteins caused by the change of carbon source. Despite the basic similarity in the strains metabolic routes when they ferment glucose and ribose, there were also interesting differences. From the application point of view, an understanding of regulatory mechanisms, actions of catabolic enzymes and proteins, and preference of carbon source is of great importance.
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the complete genome sequence of the meat borne lactic acid bacterium Lactobacillus sakei 23k
Nature Biotechnology, 2005Co-Authors: Stephane Chaillou, Marie Champomierverges, Monique Cornet, Annemarie Dudez, Veronique Martin, Sophie Beaufils, Emmanuelle Darbonrongere, Robert Bossy, Valentin Loux, Monique ZagorecAbstract:The complete genome sequence of the meat-borne lactic acid bacterium Lactobacillus sakei 23K
Frederic Leroy - One of the best experts on this subject based on the ideXlab platform.
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a putative transport protein is involved in citrulline excretion and re uptake during arginine deiminase pathway activity by Lactobacillus sakei
Research in Microbiology, 2013Co-Authors: Tom Rimaux, Luc De Vuyst, Audrey Riviere, Elvira Maria Hebert, Fernanda Mozzi, Stefan Weckx, Frederic LeroyAbstract:Arginine conversion through the arginine deiminase (ADI) pathway is a common metabolic trait of Lactobacillus sakei which is ascribed to an arc operon and which inquisitively involves citrulline excretion and re-uptake. The aim of this study was to verify whether a putative transport protein (encoded by the PTP gene) plays a role in citrulline-into-ornithine conversion by L. sakei strains. This was achieved through a combination of fermentation experiments, gene expression analysis via quantitative real-time reverse transcription PCR (RT-qPCR) and construction of a PTP knock-out mutant. Expression of the PTP gene was modulated by environmental pH and was highest in the end-exponential or mid-exponential growth phase for L. sakei strains CTC 494 and 23K, respectively. In contrast to known genes of the arc operon, the PTP gene showed low expression at pH 7.0, in agreement with the finding that citrulline-into-ornithine conversion is inhibited at this pH. The presence of additional energy sources also influenced ADI pathway activity, in particular by decreasing citrulline-into-ornithine conversion. Further insight into the functionality of the PTP gene was obtained with a knock-out mutant of L. sakei CTC 494 impaired in the PTP gene, which displayed inhibition in its ability to convert extracellular citrulline into ornithine. In conclusion, results indicated that the PTP gene may putatively encode a citrulline/ornithine antiporter.
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the kinetics of the arginine deiminase pathway in the meat starter culture Lactobacillus sakei ctc 494 are ph dependent
Food Microbiology, 2011Co-Authors: Tom Rimaux, Gino Vrancken, L De Vuyst, Vasileios Pothakos, Dominique Maes, Frederic LeroyAbstract:Lactobacillus sakei is frequently present as the dominant lactic acid bacterium in spontaneously fermented meat products, demonstrating its competitiveness in and adaptation to the meat environment. Since meat is generally low in carbohydrate content, the ability to utilize other energy sources to generate ATP, such as arginine via the arginine deiminase (ADI) pathway, represents a competitive benefit. In this study, the kinetics of growth and arginine conversion capabilities of Lb. sakei CTC 494 were analyzed, and a model was set up to describe the influence of pH on growth and arginine conversion. A series of in vitro batch fermentations using reconstituted MRS medium at different constant pH values (pH 4.50-pH 7.75) was performed. Arginine conversion through the ADI pathway, which was activated from the stationary growth phase on, resulted in the production of both citrulline and ornithine for all pH conditions tested. However, the pattern and the ratio of the end-products of the ADI pathway were influenced by pH. For certain pH values (between pH 5.0 and 6.5), a further conversion of citrulline into ornithine was found when all arginine was depleted. Characterization of responses of the ADI pathway in Lb. sakei CTC 494 to environmental conditions will allow a better understanding and control of this important starter culture in meat fermentations.
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simulation of the effect of sausage ingredients and technology on the functionality of the bacteriocin producing Lactobacillus sakei ctc 494 strain
International Journal of Food Microbiology, 2005Co-Authors: Frederic Leroy, Luc De VuystAbstract:Bacteriocin-producing lactic acid bacteria may be applied as novel functional starter cultures for sausage fermentation. In this way, safer and more standardised end products may be obtained. However, it is not clear how such strains behave under sausage fermentation conditions. In this study, the combined effects of typical sausage ingredients and process technology on the functionality of Lactobacillus sakei CTC 494 were simulated by a modelling approach. Under simulated sausage fermentation conditions, the strain was able to produce a considerable amount of bacteriocin. Model simulations indicate that sausage fermentation conditions of temperature and pH favour bacteriocin production, whereas salting and curing with sodium nitrite decrease growth and bacteriocin production. Sodium nitrite inhibits cell growth under its undissociated nitrous acid form, and its inhibitory effect seems to parallel lactic acid production. Whereas oxygen and magnesium levels did not influence bacterial functionality, manganese limitations severely decreased cell growth. Moreover, the presence of large amounts of fat, which is typical for a sausage environment, leads to an apparent bacteriocin inactivation, probably due to adsorption of the bacteriocin molecules from the water phase to the fat particles.
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a combined model to predict the functionality of the bacteriocin producing Lactobacillus sakei strain ctc 494
Applied and Environmental Microbiology, 2003Co-Authors: Frederic Leroy, Luc De VuystAbstract:The use of bacteriocin-producing lactic acid bacteria for improved food fermentation processes seems promising. However, lack of fundamental knowledge about the functionality of bacteriocin-producing strains under food fermentation conditions hampers their industrial use. Predictive microbiology or a mathematical estimation of microbial behavior in food ecosystems may help to overcome this problem. In this study, a combined model was developed that was able to estimate, from a given initial situation of temperature, pH, and nutrient availability, the growth and self-inhibition dynamics of a bacteriocin-producing Lactobacillus sakei CTC 494 culture in (modified) MRS broth. Moreover, the drop in pH induced by lactic acid production and the bacteriocin activity toward Listeria as an indicator organism were modeled. Self-inhibition was due to the depletion of nutrients as well as to the production of lactic acid. Lactic acid production resulted in a pH drop, an accumulation of toxic undissociated lactic acid molecules, and a shift in the dissociation degree of the growth-inhibiting buffer components. The model was validated experimentally.
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the presence of salt and a curing agent reduces bacteriocin production by Lactobacillus sakei ctc 494 a potential starter culture for sausage fermentation
Applied and Environmental Microbiology, 1999Co-Authors: Frederic Leroy, Luc De VuystAbstract:The specific conditions in the batter of raw fermented sausages may reduce the efficiency of bacteriocin-producing starter cultures. In this work, using in vitro fermentation, we found that sodium chloride and sodium nitrite interfere with the growth of Lactobacillus sakei CTC 494, an organism which produces the antilisterial bacteriocin sakacin K. Because sakacin K production follows primary metabolite kinetics, a decrease in cell formation resulted in a decrease in sakacin K production as well. Sodium chloride dramatically influenced bacteriocin production by decreasing both biomass production and specific bacteriocin production. Sodium nitrite, however, had no effect on specific bacteriocin production and decreased bacteriocin production only because of its effect on cell growth. Moreover, sodium nitrite enhanced the toxic effect of lactic acid on bacterial growth.
Brijesh K Tiwari - One of the best experts on this subject based on the ideXlab platform.
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application of chemometrics to assess the influence of ultrasound frequency Lactobacillus sakei culture and drying on beef jerky manufacture impact on amino acid profile organic acids texture and colour
Food Chemistry, 2018Co-Authors: Shikha K Ojha, Joseph P Kerry, Daniel Granato, Gaurav Rajuria, Francisco J Barba, Brijesh K TiwariAbstract:The effects of ultrasound (US) frequency, addition of Lactobacillus sakei culture and drying time on key nutritional (protein, amino acids, and organic acids) and physicochemical properties (texture and colour) of cultured and uncultured beef jerky were evaluated. Cultured and uncultured jerky samples were subjected to US frequencies of 25kHz, 33kHz and 45kHz for 30min prior to marination and drying. Principal component analysis demonstrated a significant effect of beef jerky processing conditions on physicochemical properties. Taurine content of jerky samples was found to increase with an increase in ultrasonic frequencies for cultured samples. No significant changes in colour values were observed for ultrasound pre-treated and control samples. Interactive effects of culture treatment, drying and ultrasonic frequency were observed. This study demonstrates that the nutritional profile of beef jerky can be improved through the incorporation of L. sakei.
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investigating the influence of ultrasound pre treatment on drying kinetics and moisture migration measurement in Lactobacillus sakei cultured and uncultured beef jerky
Lwt - Food Science and Technology, 2017Co-Authors: Shikha K Ojha, Joseph P Kerry, Brijesh K TiwariAbstract:Abstract Low Frequency-Nuclear Magnetic Resonance (LF-NMR) was employed to elucidate changes in water distribution in cultured (Lactobacillus sakei) and uncultured beef jerky samples subjected to ultrasound pre-treatment. Ultrasound pre-treatment at frequencies of 25, 33 and 45 kHz for 30 min, followed by marination (18 h) was carried out for both cultured and uncultured jerky samples. Among the various kinetic models assessed, the Wang and Singh model provided the closest fit to the drying experimental data, with high R2 (≥0.994), low RMSE (≤0.023) and low AICc ( 100 ms (T22), respectively. Results presented in this study demonstrates that the ultrasound effect on drying behaviour was frequency dependent and that LF-NMR can be employed to evaluate moisture mobility and drying degree of beef jerky.
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investigating the influence of ultrasound pre treatment on drying kinetics and moisture migration measurement in Lactobacillus sakei cultured and uncultured beef jerky
Lwt - Food Science and Technology, 2017Co-Authors: Shikha K Ojha, Joseph P Kerry, Brijesh K TiwariAbstract:Abstract Low Frequency-Nuclear Magnetic Resonance (LF-NMR) was employed to elucidate changes in water distribution in cultured ( Lactobacillus sakei ) and uncultured beef jerky samples subjected to ultrasound pre-treatment. Ultrasound pre-treatment at frequencies of 25, 33 and 45 kHz for 30 min, followed by marination (18 h) was carried out for both cultured and uncultured jerky samples. Among the various kinetic models assessed, the Wang and Singh model provided the closest fit to the drying experimental data, with high R 2 (≥0.994), low RMSE (≤0.023) and low AICc ( 2 transversal relaxation times measured by LF-NMR curves revealed the presence of three distinct peaks attributed to; bound water, water present within the dense myofibrillar protein matrix and free-water at a relaxation time range of 0–10 ms (T 2b ), 10–100 ms (T 21 ) and >100 ms (T 22 ), respectively. Results presented in this study demonstrates that the ultrasound effect on drying behaviour was frequency dependent and that LF-NMR can be employed to evaluate moisture mobility and drying degree of beef jerky.
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effect of high intensity ultrasound on the fermentation profile of Lactobacillus sakei in a meat model system
Ultrasonics Sonochemistry, 2016Co-Authors: Joseph P Kerry, Kumari Shikha Ojha, Carlos Alvarez, D Walsh, Brijesh K TiwariAbstract:The objective of this study was to investigate the efficacy of high intensity ultrasound on the fermentation profile of Lactobacillus sakei in a meat model system. Ultrasound power level (0-68.5 W) and sonication time (0-9 min) at 20 °C were assessed against the growth of L. sakei using a Microplate reader over a period of 24h. The L. sakei growth data showed a good fit with the Gompertz model (R(2)>0.90; SE<0.042). Second order polynomial models demonstrated the effect of ultrasonic power and sonication time on the specific growth rate (SGR, μ, h(-1)) and lag phase (λ, h). A higher SGR and a shorter lag phase were observed at low power (2.99 W for 5 min) compared to control. Conversely, a decrease (p<0.05) in SGR with an increase in lag phase was observed with an increase in ultrasonic power level. Cell-free extracts obtained after 24h fermentation of ultrasound treated samples showed antimicrobial activity against Staphylococcus aureus, Listeria monocytogenes, Escherichia coli and Salmonella typhimurium at lower concentrations compared to control. No significant difference (p<0.05) among treatments was observed for lactic acid content after a 24h fermentation period. This study showed that both stimulation and retardation of L. sakei is possible, depending on the ultrasonic power and sonication time employed. Hence, fermentation process involving probiotics to develop functional food products can be tailored by selection of ultrasound processing parameters.
