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Cultures antifongiques applicables comme ferments de bioprotection dans les produits laitiers : sélection, évaluation à l'échelle pilote et identification de composés supports de l'activité / Antifungal microorganisms applicable as bioprotectivecultures in diary products : selection, pilot-scale evaluation and identification of the compounds supporting the activityLeyva Salas, Marcia 06 November 2018 (has links)
La contamination fongique des produits laitiers est à l’origine de pertes économiques conséquentes et de gaspillage alimentaire. Dans un contexte de demande pour plus de « naturalité », les cultures de bioprotection et leurs métabolites représentent une alternative d’intérêt aux conservateurs chimiques pour lutter contre ces contaminants.Les objectifs de cette thèse étaient i) de sélectionner des micro-organismes présentant une activité antifongique, pour élaborer des cultures de bioprotection applicables dans des produits laitiers, et ii) d’étudier les composés potentiellement supports de l’activité antifongique observée. Dans un premier temps, l’activité antifongique de 32 souches de bactéries lactiques et propioniques a été étudiée en modèles « fromage » et « yaourt ». L’étude de combinaisons de souches et de leur innocuité a conduit à sélectionner 2 combinaisons binaires de lactobacilles (A1 et A3). Leur efficacité et applicabilité a été évaluée à l’échelle pilote en fabrication de crème fraîche et de fromage.Les challenges tests et tests d’usages ont montré que selon le produit laitier, A1 et A3 ont une activité antifongique similaire ou supérieure que les cultures bioprotectrices commerciales. Selon l’inoculum ajouté, ces cultures n’impactent pas les caractéristiques technologiques et organoleptiques des produits laitiers. Des méthodes chromatographiques des composés antifongiques suivies d’analyses statistiques ont permis de mettre en évidence des « cocktails » de 2 à 17 composés, selon la matrice et la culture considérée, qui sont probablement supports de l’activité antifongique.Ces travaux contribuent à une meilleure compréhension des mécanismes d’action de l’activité antifongique et devraient conduire au développement de cultures antifongique pour remplacer les conservateurs dans les produits laitiers. / Fungal contamination of dairy products is responsible for economic losses and food waste. In a context of “preservative-free” product demand, bioprotective cultures and their metabolites represe,t an alternative of interest of chemical preservatives to control these spoilers.The objective of this study was i) to select microorganisms exhibiting an antifungal activity, in order to elaborate bioprotectivecultures applicable in dairy products, and ii) to study the compounds potentially supporting the observed activity. Firstly, the antifungal activity of 32 strains of lactic acid and propionic bacteria screened in cheese model and yogurt. Strain combinaison study and safety assessment led to the selection of 2 binary lactobacilli combinations (A1 and A3). Their efficiency and applicability were then evaluated in pilot-scale productions of sour cream and cheese.Challenge and shelf life tests showed that depending on the dairy product, A1 and A3 have a similar or higher antifungal activity than the commercial bioprotective cultures. In addition, depending of inoculum, A1 and A3 did not impact the technological and organoleptic characteristics. Chromatographic methods and statistical analyses allowed identifying cocktails of 2 to 17 compounds, according to the considered dairy product and culture that probably support the antifungal activity.The obtained results contribute to a better understanding of the antifungal activity action mechanisms and should lead to the development of antifungal cultures to replace preservatives in dairy products.
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Propriétés antifongiques de bactéries lactiques isolées de laits crus / NoDelavenne, Emilie 16 March 2012 (has links)
Les produits laitiers fermentés tels que les yaourts, les laits fermentés et les fromages frais, occupent une place importante dans l’économie française. La stabilité de ces produits et leurs chances d’exportation sont cependant limitées par de fréquentes altérations fongiques. De plus, l’augmentation des résistances de certains champignons aux conservateurs chimiques ainsi que la forte demande des consommateurs pour des produits dépourvus d’additifs poussent les industriels à en réduire l’ajout. Dans ce contexte, il est nécessaire de développer des alternatives innovantes, telle que la bio-conservation. Les bactéries lactiques, utilisées depuis des millénaires dans la fermentation de nombreux aliments, et généralement reconnues comme inoffensives pour la santé, sont potentiellement de bonnes candidates pour la bio-conservation. Dans le but d’obtenir une ou deux souches de bactéries lactiques antifongiques, capables d’être compétitives au sein de produits laitiers fermentés tels que le yaourt, une collection de bactéries lactiques antifongiques a d’abord été constituée. Pour cela, un criblage de colonies isolées de laits crus de vache, de chèvre et de brebis a été effectué sur une période d’une année. Ce criblage, ciblé contre 4 champignons communément retrouvés dans les produits laitiers contaminés, a abouti à l’isolement de 1235 colonies de bactéries lactiques antifongiques. Ceci a permis d’évaluer la biodiversité des bactéries lactiques antifongiques d’une part, et celle des champignons, d’autre part, dans ces échantillons de lait, afin d’observer une éventuelle corrélation entre la présence de champignons et l’expression des activités antifongiques. L’influence de l’origine du lait, de la période d’échantillonnage, du milieu d’isolement et du champignon ciblé, sur le pourcentage de colonies actives isolées a été mise en évidence. Parmi les champignons ciblés, Pénicillium expansum était le plus facilement inhibé, et la majorité des colonies ont été isolées durant la troisième période d’échantillonnage, majoritairement sur les milieux à base de MRS. Les laits de vache et de chèvre se sont révélés être des réservoirs de bactéries lactiques antifongiques, contrairement aux laits de brebis. La majorité des bactéries lactiques antifongiques isolées et identifiées appartenait au genre Lactobacillus, majoritairement du groupe Lb. casei. Onze isolats, dont 10 appartenant au groupe Lb. casei, ont été sélectionnés selon l’intensité de leur activité antifongique et leur spectre d’action sur milieu MRS. Certaines de leurs propriétés technologiques ont été caractérisées, en vue de leur utilisation comme cultures protectrices dans des produits laitiers fermentés. Leur activité antifongique a également été testée dans le lait et dans le yaourt, contre 6 contaminants fongiques communément responsables d’altérations dans les yaourts. Une souche, Lb. harbinensis K.V9.3.1Np, a révélé de fortes activités antifongiques dans le yaourt contre 6 cibles fongiques. Les études complémentaires effectuées ont permis de montrer que la variation de certains paramètres technologiques (présence ou absence de saccharose, temps de fermentation) n’avait pas d’influence sur l’activité antifongique de cette souche. La découverte du potentiel antifongique de Lb. harbinensis K.V9.3.1Np est innovante. Cette espèce, isolée pour la première fois en 2005 d’un produit fermenté végétal, n’avait encore jamais été décrite comme présentant des activités antimicrobiennes. Sa forte activité antifongique dans le yaourt fait de Lb. harbinensis K.V9.3.1Np un bon candidat pour la bioconservation de produit(s) laitier(s) fermenté(s). / Fermented dairy products such as yogurt, fermented milks and fresh cheeses are of great importance in the French economy. The stability of these products and export opportunities are however limited by frequent fungal spoilages. In addition, the increase of fungal resistances to Chemical preservatives and the strong consumer demand for products deprived of Chemical additives are pushing manufacturers to reduce the quantities of added Chemical preservatives in these products. In this context, it is necessary to develop alternatives to classical food preservation methods, such as biopreservation. Lactic acid bacteria (LAB), used for millennia for diverse food fermentations, and generally recognized as safe for human health, can potentially be used for biopreservation. In order to select 1 or 2 LAB strains with antifungal activity capable to compete in fermented dairy products such as yogurt, a collection of antifungal LAB was first created. This was done by screening colonies isolated from cow, goat and ewe raw milk samples over a one-year period. This screening step, targeted against 4 fungi found in contaminated dairy products, resulted in the isolation of 1235 antifungal colonies. The biodiversity of the isolated antifungal LAB was then determined along with that of the fungi found in the different raw milks, in order to observe a possible correlation between the presence of fungi and the expression of antifungal activities. The influence of milk origin, sampling period, isolation medium and targeted fungus on the percentage of isolated active colonies was highlighted and clearly showed that both cow and goat milks were reservoirs of antifungal LAB. Among the targeted fungi, P. expansum was more easily inhibited, and the majority of colonies were isolated during the third sampling period, mainly on MRS-based media. The majority of identified antifungal LAB belonged to the genus Lactobacillus, mainly to the Lb. casei group. Eleven isolates, including 10 belonging to the Lb. casei group, were selected from these lactobacilli, according to their activity level and action spectrum in MRS medium. Some of their technological properties were characterized for their potential use as protective cultures in fermented dairy products and their antifungal activity was tested in milk and yogurt. To do this, 6 fungal contaminants commonly encountered in yogurt spoilage were used. A particular strain, Lb. harbinensis K.V9.3.1Np, showed a strong antifungal activity in yogurt. Additional experiments showed that the variation of technological parameters (presence or absence of sugar, fermentation time) had no influence on the antifungal activity of this strain. This is the first time that an antifungal potential has been observed for Lb. harbinensis, a species isolated for the first time in 2005 from a fermented vegetable product. Because of its effectiveness in yogurt, Lb. harbinensis K.V9.3.1Np is a promising strain for biopreservation of fermented dairy product(s).
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Isolamento de bactérias láticas produtoras de bacteriocinas e avaliação de sua atividade frente a patógenos alimentares em sistema de bioconservação de produto lácteo / Isolation of bacteriocin - producing lactic acid bacteria and their activity against food pathogens in a biopreservation system of dairy productsCosta, Ana Carolina Cabral Carvalhaes 05 July 2016 (has links)
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Previous issue date: 2016-07-05 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Due to their antagonistic activity against undesirable microorganisms, lactic acid bacteria
(LAB) are a promising alternative for conservation and improvement of food safety. The aim
of this work was isolate, from fresh Minas cheese, bacteriocin producing LAB with potential
for use in biopreservation systems of dairy products. For this purpose, cheese samples were
evaluated at the beginning and end of their shelf life and the isolation was performed by
surface plating on MRS agar. The antimicrobial activity was verified by antagonism assay
using Listeria monocytogenes ATCC 7644 and Staphylococcus aureus ATCC 25923 as
indicators microorganisms. The selected LAB were submitted to the spot-on-the-lawn test,
Gram stain, catalase and oxidase production and glucose metabolism in Hugh & Leifson
broth. The occurrence of inhibition due to the production of organic acids and bacteriophages
was discarded. The protein nature of antagonistic substances was confirmed by using
proteases. After the well-diffusion assay, four LAB with satisfactory antagonistic activity
against the indicators microorganisms were selected for identification by sequencing of the
16S RNA gene. All bacteria were identified as Lactococcus lactis. Based on antagonism
assay, Lactococcus lactis QMF 11 was selected for use in co-inoculation studies with
pathogens in pasteurized milk, kept at 8°C for 10 days. Lactobacillus sakei ATCC 15521 was
used as negative control for bacteriocin production. After incubation period, monocultures of
Listeria monocytogenes reached 8 log cfu mL-1 and in the presence of Lactobacillus sakei
ATCC its population achieved 7.3 log cfu mL-1. However, when co-inoculated with
Lactococcus lactis QMF 11, Listeria monocytogenes counts were maintained at the initial
inoculum levels, not surpassing 2.3 log cfu mL-1 at the end of analysis. Regarding to
Staphylococcus aureus, in the end of the experiment, cultures counts were 5.4 log cfu mL-1
(monocultures), 5.0 log cfu mL-1 (co-inoculation with Lactobacillus sakei) and 4.7 log cfu
mL-1 (co-inoculation with Lactococcus lactis QMF 11). Despite the lower growth inhibition
in comparison with Listeria monocytogenes, Staphylococcus aureus growth was significantly
affect (p < 0.005) by the presence of Lactococcus lactis QMF 11, indicating that this strain
has potential for use as biopreservative culture in dairy products. / Devido à sua atividade antagonística contra micro-organismos indesejáveis, as bactérias ácido
láticas (BAL) constituem uma alternativa promissora para a conservação e melhora da
segurança de alimentos. O objetivo deste trabalho foi isolar, a partir de queijo Minas frescal,
BAL produtoras de bacteriocinas com potencial para utilização em sistemas de
bioconservação de produtos lácteos. Para tanto, amostras de queijo foram avaliadas no início e
final de sua vida útil e o isolamento das BAL realizado por plaqueamento em ágar MRS.
Verificou-se a atividade inibitória das bactérias pelo de ensaio de antagonismo em ágar
usando Listeria monocytogenes ATCC 7644 e Staphylococcus aureus ATCC 25923 como
micro-organismos indicadores. As BAL selecionadas nessa etapa foram submetidas aos testes
spot-on-the-lawn, coloração de Gram, produção da catalase e oxidase e metabolismo da
glicose em meio Hugh e Leifson. Descartou-se ocorrência de inibição pela produção de ácidos
orgânicos e por bacteriófagos. A natureza proteica das substâncias antagonísticas foi
confirmada utilizando-se proteases. Após realização do ensaio well diffusion, quatro BAL
com atividade antagonística satisfatória frente aos micro-organismos indicadores utilizados
foram selecionadas para identificação por sequenciamento do gene 16S do RNA. Todas foram
identificadas como Lactococcus lactis. Com base nos testes de antagonismo, a cepa
Lactococcus lactis QMF 11 foi selecionada para utilização no ensaio de co-inoculação com
patógenos em leite pasteurizado mantido a 8oC por 10 dias. Lactobacillus sakei ATCC 15521
foi usado como controle negativo para produção de bacteriocinas. Após o período de
incubação, Listeria monocytogenes em monocultura atingiu 8 log UFC/mL e na presença de
Lactobacillus sakei chegou a 7,3 log UFC/mL. Entretanto, quando co-inoculada com
Lactococcus lactis QMF11, as médias das contagens do patógeno ao final do experimento não
ultrapassaram 2,3 log UFC/mL. Em relação a Staphylococcus aureus, as contagens finais
foram: 5,4 log UFC/mL (monocultura), 5,0 log UFC/mL (co-inoculado com L. sakei) e 4,7
log UFC/mL (co-inoculado com Lactococcus lactis QMF 11). Apesar da menor inibição do
crescimento de Staphylococcus aureus, em comparação à Listeria monocytogenes, sua
multiplicação foi significantemente afetada (p<0.005) pela presença de Lactococcus lactis
QMF 11, indicando que a cepa tem potencial para uso como cultura bioconservadora em
produtos lácteos.
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System design for production of biopreservatives from yeasts for reduction of fruit and beverage spoilage organismsNgongang, Maxwell Mewa January 2019 (has links)
Thesis (PhD (Chemical Engineering))--Cape Peninsula University of Technology, 2019 / The agro-processing industry is currently facing losses due to microbial spoilage of agricultural produce and associated value-added products such as beverages. Decay and undesired fermentation of fruit and beverages by fungal, yeast and bacterial spoilage organisms are among the major contributors of product losses in the food industry. When looking at the different level of food spoilage, it is common to find different spoilage organisms occurring in the same food item; which usually requires food producers to utilise a mixture of synthetic preservatives for spoilage organism control. Some of the synthetic chemical compounds with growth inhibition properties that have been used in food preservation are sulphur dioxide, benzoic, lactic, sorbic and acetic acid. These compounds act against a variety of spoilage microorganisms. In post-harvest control of fungi, triazoles, hydroanilide fenhexamid, dicarboximides and succinate dehydrogenase are also being used. Some spoilage organisms have been found to be resistant to the use of synthetic chemical preservatives which usually favour the use of higher dosage of preservatives in food. The use of synthetic chemicals as preservative and as postharvest control agents has been found to present serious health risks such as cardiovascular diseases, muscles and stomach pains, eyesight and skin damages and impairment of brain functions. The problem posed by the current use of synthetic chemicals in food put pressure on food producers and exporters to seek alternatives that will allow for the eradication of the use of synthetic chemicals as preservative in beverages and as postharvest control agents on fruits.
Yeasts have been found to have the ability to grow at a faster rate on cheap media and to colonise dried surfaces rapidly. It has also been found that yeasts produce extracellular compounds of proteinaceous and volatile organic nature with growth inhibition properties against spoilage organisms. The current findings lack some engineering concept that could assist in the design of a production system for high scale production of biopreservation compounds from yeasts. The availability of a cost effective production media, the growth and production kinetics data using a cheaply available nutrient sources as well as the biological thermodynamic data are some of the gaps in biopreservation bioprospecting. Although several yeasts have already been studied to have great inhibition properties against fruit fungal pathogens, it was still unclear what was the minimum inoculum dose to be able to have a fungistatic and fungicidal effect on the growth of fruit spoilage organisms. The concept of combination of biopreservatives and the interaction effect of their biopreservation activity against consortia of spoilage organisms has also been lacking.
As an attempt to seek alternatives to the use of synthetic chemicals as preservatives or postharvest control agents, Candida pyralidae Y1117, Pichia kluyveri Y1125 and Pichia kluyveri Y1164 strains were assessed for antimicrobial activity against spoilage yeasts (Dekkera bruxellensis, Dekkera anomala, Zygosaccharomyces bailii) and spoilage fungi (Botrytis cinerea, Colletotrichum acutatum and Rhizopus stolonifer). As alternative to refined media, a cost effective approach was explored whereby the use of agro-waste, i.e. grape pomace extracts (GPE), as production medium for biopreservation compounds, was studied. Production kinetics using modified existing models, subsequent to optimization using response surface methodology (RSM) for biopreservation compounds production was studied for the three biocontrol yeasts using GPE broth as the fermentation medium. The evaluation of the interaction study between mixtures of crude biopreservatives against consortia of common spoilage organisms present in beverages was also conducted by producing the crude biopreservation compounds separately from yeasts and then formulating growth inhibition combinations (GICs); GIC 1 (Candida pyralidae Y1117 and Pichia kluyveri Y1125); GIC 2 (C. pyralidae Y1117 and P. kluyveri Y1164), GIC 3 (P. kluyveri Y1125 and Pichia kluyveri Y1164); GIC 4 (C. pyralidae, P. kluyveri Y1125 and P. kluyveri Y1164). The spoilage organism consortia combinations, i.e. SC1, D. anomala and D. bruxellensis; SC2 (D. anomala and Z. bailii); SC3 (D. bruxellensis and Z. bailii) and SC4 (D. anomala, D. bruxellensis and Z. bailii) were also prepared. This study also investigated the effect of varying inoculum dose (ID) of Candida pyralidae strain Y1117, Pichia kluyveri Y1125 and Pichia kluyveri Y1164 on the biocontrol of Botrytis cinerea by contaminating the headspace of the growth medium with a fungal plug subsequent to biotreatment with different initial inoculum dose of the respective biocontrol yeasts. Finally, grape pomace extracts was used as fermentation medium to study the biological thermodynamics of biopreservation compound production from the three biocontrol yeasts.
The results obtained demonstrated some interesting results. The antagonistic properties of C. pyralidae and P. kluyveri were observed on cheap solidified medium (grape pomace extracts) as well as on fruits (grapes and apples). These yeasts produced extracellular volatile organic compounds (VOCs) that could be responsible for yeast and fungal growth inhibition. Twenty-five VOCs in the category of alcohols, organic acids and esters were identified by GC-MS. The results of the kinetic study showed that the highest volumetric zone of inhibition (VZI) was 1.24 L contaminated solidified media (CSM) per mL biopreservation compounds used (BCU) when Candida pyralidae Y1117 was inoculated in a pH 3-diluted GPE broth (150 g L−1) incubated at 25 °C for 24 h. Similar conditions were applied for Pichia kluyveri Y1125 and P. kluyveri Y1164, albeit under slightly elongated fermentation periods (up to 28 h), prior to the attainment of a maximum VZI of only 0.72 and 0.76 L CSM mL−1 ACU, respectively. The potential biopreservation compounds produced were identified to be isoamyl acetate, isoamyl alcohol, 2-phenyl ethylacetate and 2-phenyl ethanol. The growth inhibition interaction study showed a variation in growth inhibition proficiency depending on the spoilage organisms or the consortia of spoilage organisms being deactivated. It was then suggested that, a food environment contaminated with a consortium of spoilage organisms can be controlled by employing either the crude biopreservation compounds from individual yeast or those of the following yeast combinations, GIC1-4, which showed a better growth inhibition proficiency against SC1-3. The fungistatic and fungicidal effects on the fungal pathogen were dose dependent. The fungistatic characteristics against Botrytis cinerea were displayed after 7 days when 102-105 cells mL-1 of Candida pyralidae Y1117, Pichia kluyveri Y1125 and Pichia kluyveri Y1164 were independently used in-vitro and in-vivo. However, 106-108 cells mL-1 inoculum doses displayed fungicidal characteristics. Additionally, the fungicidal property of yeasts studied was also confirmed on table grape (in vivo studies) using closed jar method. The biological thermodynamic study showed that, dried biomass molecular weight of 28.9 g/C-mol, 29.163 g/C-mol, and 27.176 g/C-mol were obtained for Candida pyralidae strain Y1117, Pichia kluyveri Y1125 and Pichia kluyveri Y1164 respectively. The results obtained successfully established useful biological thermodynamic data applicable to the design of adequate biopreservatives production system from yeasts using cheaply available nutrients source.
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Evaluation du potentiel bioprotecteur de bactéries lactiques confinées dans une matrice polymérique / Lactic acid bacteria strains for bioprotection application with cells entrapment in biopolymeric matricesLéonard, Lucie 14 November 2013 (has links)
Parmi les différentes méthodes de lutte contre les microorganismes pathogènes et/ou altérants en agroalimentaire, l’utilisation de bactéries lactiques (LAB) bioprotectrices s'avère être un outil prometteur pour la préservation des aliments. Ce travail de thèse collaboratif, entre l'équipe PAPC (AgroSup Dijon, Université de Bourgogne) et le laboratoire BioDyMIA (Université Lyon1-Isara Lyon), concerne l'étude de systèmes bioprotecteurs immobilisant des cellules entières de LAB dans une matrice polymérique d'alginate de sodium et de caséinate de sodium pour une activité ciblée contre Listeria spp. Dans un premier temps, la méthodologie mise en œuvre a consisté à sélectionner des souches de LAB bioprotectrices sur la base de leur activité antimicrobienne évaluée par la méthode de diffusion en milieu gélosé contre trois souches de Listeria spp. Quatre souches sur 19 ont ainsi été sélectionnées. Une caractérisation partielle des métabolites antimicrobiens produits par ces 4 souches a ensuite été réalisée en appliquant des traitements thermiques et enzymatiques aux surnageants de culture correspondants pour évaluer si ces traitements altéraient l’activité des métabolites antimicrobiens présents. Une purification et une identification partielle des actifs antimicrobiens de nature peptidique ont été réalisées uniquement pour la souche d'intérêt principale : Lactococcus lactis LAB3. Dans un second temps, une formulation de la matrice polymérique d’immobilisation des LAB sélectionnées a été choisie en réalisant le diagramme de phases du système aqueux alginate de sodium/caséinate de sodium : 1,5 % (m/m) d'alginate de sodium / 4 % (m/m) de caséinate de sodium / 20 % (m/m) bouillon MRS. Cette formulation a permis d'obtenir une matrice composée d’une phase continue riche en alginate et d’une phase dispersée riche en caséinate dans laquelle les cellules de LAB se localisent préférentiellement d’après les observations en microscopie de fluorescence confocale à balayage laser. Suite à l'inclusion des cellules de LAB dans ces matrices liquides et gélifiées d'alginate seul et d'alginate/caséinate, leur cultivabilité et leur activité anti-Listeria ont été suivies à 30°C pendant 12 jours. Ceci a révélé que la cultivabilité et l’activité antimicrobienne des cellules de LAB se maintiennent à des niveaux plus élevés dans les matrices d'alginate/caséinate que dans celles uniquement à base d’alginate. Ces matrices à base d’alginate et de caséinate apparaissent donc comme un système prometteur pour l'immobilisation de LAB bioprotectrices. Leur intérêt pour l’inclusion de LAB a pu être corrélé à leur viabilité et à la structure composite de cette matrice à base de protéines qui favoriserait la production et la libération des métabolites antimicrobiens / Among the various methods to control foodborne pathogenic and/or food spoilage microorganisms in food chain, bioprotective lactic acid bacteria (LAB) appear to be promising tools for food biopreservation. This collaborative study, between PAPC (Agrosup Dijon, University of Burgundy) and BioDyMIA (University Lyon1-Lyon Isara) laboratories, concerned the development of sodium alginate/sodium caseinate polymeric matrices intended to entrap LAB cells selected for their anti-Listeria spp. activity. First, 4 LAB strains from 19 LAB strains were selected for their anti-Listeria spp. activity: this screening was performed by the method of agar diffusion against three Listeria spp strains. Then, antimicrobial metabolites produced by the selected LAB strains were partially characterized by assessing the effect of various thermal and enzymatic treatments on the anti-Listeria spp. activity of their culture supernatants. A partial purification and identification of antimicrobial active peptides produced by the main strain of interest (Lactococcus lactis LAB3) was also performed. A composition of the polymer matrix has been selected by performing the phase diagram of sodium alginate/sodium caseinate system: 1.5% (w/w) sodium alginate / 4% (w/w) of caseinate sodium / 20% (w/w) MRS broth. This formulation provides a rich alginate continuous phase and a rich caseinate dispersed phase in which LAB cells localize according to the study by confocal microscopy. LAB cells were immobilized in liquid and gelled matrices of alginate and alginate/caseinate. Culturability and anti-Listeria activities were measured during a storage at 30°C for 12 days. The alginate/caseinate matrices were more effective in better maintaining LAB cells cultivability and their antimicrobial activity than alginate matrix. This effectiveness seemed correlated with cell viability and the dispersion-like structure of the protein-based system which enhance production and release of antimicrobial metabolites. Thus, this type of polymeric matrix appeared as a promising immobilization system of bioprotective LAB
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Advances in animal blood processing: development of a biopreservation system and insights on the functional properties of plasmaDàvila Ribot, Eduard 09 February 2007 (has links)
La sang és un subproducte amb un alt potencial de valorització que s'obté en quantitats importants en els escorxadors industrials. Actualment, la majoria de sistemes de recollida de la sang no segueixen unes mesures d'higiene estrictes, pel que esdevé un producte de baixa qualitat microbiològica. Conseqüentment, l'aprofitament de la sang és una sortida poc estimulant des del punt de vista econòmic, ja que acostuma a perdre les qualitats que permetrien l'obtenció de productes d'alt valor afegit. El capítol I del present treball s'inclou dins d'un projecte que proposa la inoculació de bacteris de l'àcid làctic (LAB) com un cultiu bioconservador de la sang, un sistema senzill i de baix cost que cerca l'estabilitat de la sang, tant microbiològica com fisicoquímica, durant el període del seu emmagatzematge. El capítol II s'emmarca dins d'un projecte que cerca la millora de l'aprofitament integral de la sang que, en el cas de la fracció plasmàtica, es centra en l'estudi de la funcionalitat dels seus principals constituents. Conèixer la contribució dels components majoritaris ha de permetre la millora de la funcionalitat dels ingredients alimentaris derivats. Els resultats presentats en aquesta tesi poden ajudar a la valorització de la sang porcina d'escorxadors industrials, mitjançant els coneixements adquirits pel que fa a la millora del seu sistema de recollida i del desenvolupament d'ingredients alimentaris amb interessants propietats funcionals. / Blood is a by-product obtained in large amounts in industrial slaughterhouses with a high potential of valorisation. Currently, most of the blood collecting systems are not subjected to strict hygienic measures hence it becomes a product with low microbiological quality. As a result, the use of blood for consumption purposes is not a stimulating prospect from an economic point of view, because the intrinsic worth allowing the development of high value-added products is normally lost.Chapter I of the present dissertation is included within a research project that suggests lactic acid bacteria (LAB) as a blood biopreservative culture: a simple, inexpensive system to keep the stability of blood both in terms of microbiological and physicochemical quality, during its storage.Chapter II is framed within a research project that investigates ways to improve the use of blood as a food ingredient, which, in the case of plasma, is focused on the functionality of its main protein constituents. The knowledge of the contribution of each constituent can be used to improve the functional properties of plasma-based ingredients. The results presented in this thesis dissertation may help the valorisation of porcine blood from industrial slaughterhouses, thanks to the acquired knowledge about the improvement of blood preservation and the development of plasma-based food ingredients with interesting functional properties.
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