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411	Improved Properties of Poly (Lactic Acid) with Incorporation of Carbon Hybrid Nanostructure Kim, Junseok 01 July 2016 (has links) Poly(lactic acid) is biodegradable polymer derived from renewable resources and non-toxic, which has become most interested polymer to substitute petroleum-based polymer. However, it has low glass transition temperature and poor gas barrier properties to restrict the application on hot contents packaging and long-term food packaging. The objectives of this research are: (a) to reduce coagulation of graphene oxide/single-walled carbon nanotube (GOCNT) nanocomposite in poly(lactic acid) matrix and (b) to improve mechanical strength and oxygen barrier property, which extend the application of poly(lactic acid). Graphene oxide has been found to have relatively even dispersion in poly(lactic acid) matrix while its own coagulation has become significant draw back for properties of nanocomposite such as gas barrier, mechanical properties and thermo stability as well as crystallinity. Here, single-walled carbon nanotube was hybrid with graphene oxide to reduce irreversible coagulation by preventing van der Waals of graphene oxide. Mass ratio of graphene oxide and carbon nanotube was determined as 3:1 at presenting greatest performance of preventing coagulation. Four different weight percentage of GOCNT nanocomposite, which are 0.05, 0.2, 0.3 and 0.4 weight percent, were composited with poly(lactic acid) by solution blending method. FESEM morphology determined minor coagulation of GOCNT nanocomopsite for different weight percentage composites. Insignificant crystallinity change was observed in DSC and XRD data. At 0.4 weight percent, it prevented most of UV-B light but was least transparent. GOCNT nanocomposite weight percent was linearly related to ultimate tensile strength of nanocomposite film. The greatest ultimate tensile strength was found at 0.4 weight percent which is 175% stronger than neat poly(lactic acid) film. Oxygen barrier property was improved as GOCNT weight percent increased. 66.57% of oxygen transmission rate was reduced at 0.4 weight percent compared to neat poly(lactic acid). The enhanced oxygen barrier property was ascribed to the outstanding impermeability of hybrid structure GOCNT as well as the strong interfacial adhesion of GOCNT and poly(lactic acid) rather than change of crystallinity. Such a small amount of GOCNT nanocomposite improved mechanical strength and oxygen barrier property while there were no significant change of crystallinity and thermal behavior found. / Master of Science poly(lactic acid) graphene oxide single-walled carbon nanotube coagulation mechanical property crystalline oxygen barrier property
412	The effects of post-fermentation and post-bottling heat treatment on Cabernet Sauvignon (V. vinifera L.) glycosides and quantification of glycosidase activities in selected strains of Brettanomyces bruxellensis and Oenococcus oeni Mansfield, Anna Katharine 10 August 2001 (has links) Thermal processing has been used as a means of modifying the sensory aspects of wine. Cabernet Sauvignon wines were heated prior to dejuicing (3C per day from 25C to 42C) or after bottling (42C for 21 days) to determine the effects on total glycosides and glycosidic fractions. Total and phenol-free glycosidic concentrations in the wine and skins were quantified by analysis of glycosyl-glucose. Pre-dejuicing thermal vinification resulted in higher total glycosides (12%), phenol-free glycosides (18%), total hydroxycinnamates (16%), large polymeric pigments (LPP) (208%) small polymeric pigments (SPP) (41%), and lower monomeric pigments (42%) in wines. Skins had lower total glycosides (-16%), and no significant difference in phenol-free glycosides. Post-bottling heat treatment resulted in lower total (-15%) and phenol-free (-16%) glycosides, increased hue (25%), a 62% increase in LPP and a 29% decrease in monmeric pigments. A second study investigated the potential of enological spoilage microorganisms to affect wine aroma, flavor, and color. The activities of b-glucosidase were determined in model systems for fourteen strains of Brettanomyces bruxellensis yeast and nine strains of lactic acid bacteria (Oenococcus oeni). All Brettanomyces strains and seven Oenococcus strains exhibited enzymatic activity. B. bruxellensis b-glucosidase activity was primarily intracellular; O. oeni showed some extracellular activity. Yeasts and bacteria showing activity greater than 1000 nmole mL-1 g -1 for Brettanomyces, or 100 nmole mL-1 g -1 for Oenococcus, were evaluated for their effect on Viognier grape glycosides. Neither was active on native grape glycosides. / Master of Science Glycosides hydrolysis thermal vinification glycosidases Brettanomyces bruxellensis Oenococcus oeni Cabernet Sauvignon aglycone lactic acid bacteria
413	Enhancing poly(lactic acid) microcellular foams by formation of distinctive crystalline structures Li, R., Ye, L., Zhao, X., Coates, Philip D., Caton-Rose, Philip D. 13 January 2021 (has links) Yes / By controlling the crystallization behavior of poly(lactic acid) (PLA) in the presence of a hydrazide nucleating agent (HNA), PLA-HNA foams with enhanced microcellular structures were prepared via supercritical CO2 foaming. It was found that HNA can self-assemble into fibrillar networks, inducing the crystallization of PLA on their surface, and "shish-kebab"crystalline structures with high crystallinity formed, which can be maintained during the whole foaming process. Incorporation of HNA promoted the formation of gt conformers, improved the amount of dissolved CO2, hindered the escape of CO2, and increased the viscoelasticity of PLA. Compared with neat PLA foam, for PLA-HNA foam, the average cell diameter decreased obviously, from 64.39 to 6.59 μm, while the cell density increased up to nearly three orders of magnitudes, from 6.82 × 106 to 4.44 × 109 cells/cm3. Moreover, lots of fibrillar structures appeared and entangled with each other on the cell wall of the foam. By forming such dense micropores and enhanced fibrillar structures, PLA foam was highly reinforced with significantly improved compressive strength. / This research was financially supported by National Natural Science Foundation of China (grant no. 51773122) and State Key Laboratory of Polymer Materials Engineering (grant no. sklpme2019-2-21). Poly(lactic acid) (PLA) Microcellular foam Enhanced crystalline structure Foaming behaviour Reinforcing mechanism
414	Significant thermal energy reduction in lactic acid production process Mujtaba, Iqbal, Edreder, E.A., Emtir, M. January 2012 (has links) No description available.
415	Efeito de autólise de culturas lácticas na proteólise do queijo Prato / Autolysis effect of lactic cultures proteolysis in cheese dish Moreno, Izildinha 10 April 2003 (has links) Nesta pesquisa, estudaram-se as variações ocorridas na relação entre autólise de culturas lácticas e o desenvolvimento da proteólise de queijo Prato produzido em quatro regiões brasileiras: Santa Catarina (Queijo A), Goiás (Queijo B), São Paulo (Queijo C) e Minas Gerais (Queijo D). A análise quantitativa da população de bactérias lácticas durante a maturação mostrou perfis microbiológicos similares para todas as amostras de queijos examinadas. Após 5 dias de maturação, lactococos e estreptococos estavam presentes em números mais elevados do que lactobacilos mesofílicos e termofílicos, leuconostoc e fermentadores de lactato. Contudo, essas populações aumentaram consideravelmente no final do processo de maturação. Enterococos e fermentadores de citrato permaneceram em números relativamente reduzidos ao longo da maturação. A análise qualitativa mostrou a predominância de \"non starter lactic acid bactéria\" (NSLAB) nos queijos das quatro origens, principalmente de Lactobacillus sp. Outros gêneros foram identificados em menor proporção: Enterococcus sp., Pediococcus sp., Aerococcus sp., Tetragenococcus sp. e Streptococcus sp. O queijo C diferiu dos demais por não apresentar Pediococcus sp. e Streptococcus sp. As culturas lácticas adicionadas Lactococcus lacfis sp. e Leuconostoc sp. estavam presentes em populações menores. A autólise foi estudada pela determinação da atividade de aminopeptidases e detecção de autolisinas por zimogramas e de enzimas intracelulares por \"imunoblotting\". Uma maior liberação de aminopeptidases ocorreu no queijo D, seguido dos queijos C, B e A. Não foram detectadas bandas de atividade lítica nos zimogramas dos queijos A e B em todas as condições avaliadas. Nos zimogramas, detectou-se uma banda de 30 KDa nos queijos C e D a pH 7,4 e 44°C, e uma outra de 40 KDa, exclusiva no queijo D, ambas de fraca intensidade. A pH 6,8 e 42°C, detectou-se bandas de 40KDa de fraca intensidade no queijo C e forte no D, além de mais duas de fraca intensidade de 90KDa e 110KDa no queijo D. Na análise em \"imunnoblotting\" com o antisoro anti-Lc, foi observado apenas sinais fracos de reação positiva e em números inferiores àquelas reveladas com o citoplasma bruto de Lac. Lacfis subsp. lacfis (controle positivo), indicando que a autólise foi praticamente inexistente. Com o antisoro anti-D-LDH, também não se detectou sinais de reação positiva nos queijos A e B, enquanto nos queijos C e D, verificou-se sinais positivos de 37KDa, de forte intensidade e correspondentes à proteína D-LDH, indicando a lise de Lab. helveticus. A evolução da proteólise foi determinada quantitativamente durante a maturação e avaliada com base nos índices: NS-pH4,6/NT% e NNP/NT%, teor de tirosina, eletroforese (Uréia-PAGE) e quantificação de aminoácidos individuais livres. Não foram detectadas diferenças significativas entre os queijos A. B, C e D no início da maturação. Contudo, com a fragmentação das proteínas, ocorreu um aumento gradual desses índices, tendo-se observado valores mais elevados no queijo D, seguido dos queijos C, B e A. Os perfis eletroforéticos de proteínas foram similares para os queijos das quatro origens e mostraram claramente que o coagulante e a plasmina foram os responsáveis pela degradação inicial das caseínas. A taxa de degradação da αs1- e β-caseína apresentou a seguinte ordem: D > C ≥ B > A. O acúmulo de aminoácidos livres também foi mais rápido no queijo D, seguido dos queijos C, B e A. Portanto, a autólise de Lab. helveticus no queijo D acelerou a proteólise, diminuindo o período de maturação em 45% e não afetando negativamente o desenvolvimento de \"flavour\" e nem a textura. No final da maturação (45 dias), os compostos voláteis foram determinados por meio de cromatografia gasosa com espectrometria de massa (CG-MS). Com raras exceções, os queijos das quatro origens continham os mesmos compostos voláteis, embora em quantidades distintas. Os álcoois e ésters foram os compostos majoritários nos queijos A e B e benzaldeído, 3-metil-butanal-2 e hexanal nos C e D. O perfil de textura instrumental (TPA) e a análise sensorial descritiva e quantitativa foram realizados. Os queijos B, C e D apresentaram características mais típicas de queijo Prato, independentemente do fato de que o aroma de manteiga e o sabor doce serem mais acentuados no queijo D. O queijo A foi classificado como tendo as menores características de queijo Prato e apresentou maior nível de defeitos de \"flavour\", principalmente residual e amargor. Os queijos avaliados não apresentaram diferenças significativas quanto à elasticidade e coesividade. Pequenas alterações na composição físico-química dos queijos, principalmente os teores de umidade e de caseína, influenciaram nos parâmetros como a firmeza e a adesividade. O presente estudo demonstrou pela primeira vez a ausência de autólise de Lc. Lacfis sp. em queijo Prato de quatro origens, bem como a ocorrência de autólise de Lab. helveticus nos queijos de duas origens, C e D. A pronunciada autólise dessa espécie teve um impacto positivo na proteólise e foi a responsável pelo aumento da concentração de aminoácidos livres nesses queijos. As diferenças na evolução da proteólise observada entre os queijos C e D, com taxas mais baixas no queijo C, independentemente da autólise pronunciada de Lab. helveticus, foram atribuídas à falta de uniformidade na composição físico-química dos queijos, principalmente pH e os teores de sal na umidade (S/U). / This paper reports a study aimed at evaluating the variations that occur in the interrelationship between autolysis of lactic starter bacteria and the development of proteolysis in Prato cheese produced in four different regions of Brazil: Santa Catarina (Cheese A), Goiás (Cheese B), São Paulo (Cheese C) and Minas Gerais (Cheese D). Quantitative analysis of microbial population yielded similar microbiological profiles for all the cheese samples investigated. After 5 days ripening, lactococci and streptococci were present in higher numbers than mesophilic and thermophilic lactobacilli, leuconostoc and lactate fermenting bacteria. However, the populations of the latter species had considerably increased by the time the ripening process completed 45 days. Enterococci and citrate fermenting bacteria remained present in relatively low numbers throughout ripening. The findings from qualitative analysis confirmed the predominance of non-starter lactic acid bacteria (NSLAB) in the cheeses from four different origins, especially Lactobacillus sp. Other genera of non-starter lactic acid bacteria (NSLAB) were identified in smaller proportions: Enterococcus sp., Pediococcus sp., Aerococcus sp., Tetragenococcus sp. and Streptococcus sp. Cheese C differed from the cheeses in that it no evidence was found of the presence of Pediococcus sp. and Streptococcus sp. The bacteria of the lactic starter culture Lactococcus lactis sp. and Leuconostoc sp. were also found to be present, although in lower numbers. Autolysis was studied by: (1) determination of aminopeptidase activity; (2) detection of autolysins by zymograms and (3) detection of intracellular enzymes by immunoblotting. The release of aminopeptidase was highest in cheese D, followed by C, B and A. No bands of lytic activity were appeared in the zymograms of Cheeses A and B in all conditions evaluated. At pH 7,4 and 44°C, a low-intensity band of 30 KDa was found in cheeses C e D, whereas another low-intensity band was observed only in cheese D. At pH 6,8 and 42°C, bands of 40KDa were observed in cheese C (low intensity) and cheese D (high intensity), in addition to two more low-intensity bands of 90KDa and 110KDa in cheese D. Immunoblotting with antiserum anti-Lc produced only minor signs of positive reaction, evidenced by the formation of low-intensity bands of 100 Kda in cheeses A and B and two high-intensity bands of 75 Kda and 100 Kda in cheeses C and D. Since these were present in smaller numbers to those revealed with crude cytoplasm of Lac. lactis subsp. lactis, it was concluded that autolysis did practically non occur. Immunoblotting with antiserum anti-D-LDH also detected sings of positive reaction in cheeses A and B, whereas in cheeses C e D positive high-intensity signs of 37Kda were found relative to D-LDH protein, indicating lysis of Lab. helveticus. The evolution of proteolysis was determined quantitatively during the ripening process and evaluated on the basis of the following parameters: NS-pH4,6/NT% and NNP/NT% indexes, tyrosine content, electrophoresis (Urea-PAGE) and quantification of free amino acids. No significant differences were found between cheeses A, B, C and D in the ear1y stages of ripening. However, with the on-going fragmentation of proteins during ripening, a gradual increase of the ripening indexes occurred, with the highest values being observed in cheese D, followed by C, B e A. The electrophoretic profiles were similar for the four cheeses investigated and clear1y showed that the clotting agent or milk coagulant and plasmin were responsible for the initial breakdown of the caseins. The degradation rate of Q.sl- and p-casein followed the following order: D > C ≥ B > A. The buildup of free amino acids was also faster in cheese D, followed by cheeses C, B e A. At the end of the ripening process studied (45 days), the volatile compounds were identified using gas chromatography and mass spectrometry (GC-MS), whereas the instrumental texture profile was measured and evaluated by Texture Profile Analysis (TPA). Cheese samples were evaluated by descriptive and quantitative sensory analysis. With rare exceptions, the cheeses of four different origins contained the same volatile compounds, although in different quantities. Alcohols and esters were the predominant volatile compounds in cheeses A and B and benzaldehyde, 3-methyl-butanal-2 and hexanal in cheeses C and D. Autolysis of Lb. helveticus accelerated proteolysis in cheese D, thereby reducing ripening time by 45% without any negative effect on either flavor or texture development. Cheeses B, C and D exhibited the most typical Prato cheese characteristics, in spite of the fact that the buttery aroma and sweet taste were more pronounced in cheese D. Cheese A was rated as the cheese with the less typical overall Prato cheese profile and was also the one that exhibited the highest degree and number of flavor defects, notably aftertaste and bitterness. The cheeses investigated did not present any significant differences as to elasticity and cohesiveness. Minor changes in the physical-chemical composition of the cheeses - mainly related to the moisture and casein levels - influenced parameters such as firmness and adhesiveness. The present study demonstrates for the very first time the absence of autolysis of Lc. Lactis sp. in Prato cheese from four different origins, as well as the occurrence of autolysis of Lb. helveticus in two of the cheeses analyzed (cheeses C and D). The pronounced autolysis of this species had a positive impact on proteolysis and was responsible for the release of increased quantities of free amino acids in these cheeses. The differences in the evolution of proteolysis observed between cheeses C and D - lower rate of proteolysis in cheese C, in spite of pronounced autolysis of Lb. helveticus - were attributed to poor uniformity of the physical-chemical composition of this cheese, particularly as related to pH and the salt and moisture levels (S/M). Autólise Autolysis Bactérias lácticas Cheese (Analysis Cheese Plate Dairy (Microbiology) Food microbiology Lactic acid bacteria Lactic microbiota Laticínios (Microbiologia) Maturação de queijos Microbiologia de alimentos Microbiology) Microbiota láctica Proteólise Proteolysis Queijo (Análise; Microbiologia) Queijo Prato Ripening cheese
416	Etude de la flore lactique du Nem chua, produit carné fermenté cru traditionnel du Sud Vietnam et maîtrise du processus de fermentation par ajout de souches lactiques sélectionnées spécifiques du produit Ho, Thi Nguyet Thu 18 December 2008 (has links) Le Nem chua est un produit vietnamien fermenté à base de viande porcine. Notre étude a pour but de formuler des starters lactiques afin de standardiser le processus de fabrication du Nem chua et améliorer la qualité des produits finis. Le pH de la pâte de viande diminue progressivement tandis que la population lactique se développe au cours des 5 jours de fermentation. Parmi les 131 souches identifiées, les Lactobacillus brevis et Lb. plantarum étaient les plus fréquents. Les autres bactéries lactiques telles que Leuconostoc mesenteroides, Pediococcus pentosaceus, Lactococcus lactis sont présentes mais en plus faible pourcentage. L’utilisation de la combinaison des Lb. brevis et Pe. pentosaceus (6.106 UFC.g-1 pâte de viande, proportion de 1:1) donne des produits préférés par le jury de dégustateurs vietnamiens. Ces résultats permettent d’ouvrir de nouvelles perspectives de production et d’application au niveau industriel des starters lactiques choisis afin d’avoir les produits à la qualité bien maîtrisée et en sécurité alimentaire dans la fabrication des Nem chua du Vietnam, qui pouvant s’appliquer à d’autres fermentations carnées similaires. / Nem chua is a very popular fermented meat product in Vietnam. Our research aimed at the formulation of autochthonous starter cultures in order to standardise the production process of Nem chua and to improve the quality of final product. The paste meat pH progressively decreased while LAB increased during the fermentation. Among 131 isolates identified, the most frequent LAB revealed were Lactobacillus brevis and Lb. plantarum. The other LABs such as Leuconostoc mesenteroides, Pediococcus pentosaceus, Lactococcus lactis, … existed in lowest percentage. The results of our sensorial experiments demonstrated significant effects of Lb. brevis and Pe. pentosaceus strains, which were previously isolated from Nem chua, on the sensory quality of this traditional fermented meat product. The use of both Lb. brevis and Pe. pentosaceus strains (6.106CFU.g-1 meat paste, strain ratio of 1:1) as starters for Nem chua offered the best sensorial quality. These results suggest further studies on the practical ability of using and producing these LABs in combination as commercial starters in order to produce products of well-controlled quality and safety for Nem chua in Vietnam and probably of other similar fermented meat products. Nem chua Bactéries lactiques Lactobacillus brevis Pediococcus pentosaceus Ferment lactique Evaluation sensorielle Lactic acid bacteria Lactobacillus brevis Pediococcus pentosaceus Starter Sensory assessment
417	Evaluation des propriétés immunomodulatrices de la bactérie lactique Lactobacillus plantarum NCIMB8826 dans le cadre de l'allergie aux acariens / Evaluation of the immunomodulatory properties of the lactic acid bacteria Lactobacillus plantarum NCIMB8826 in the context of house dust mite allergy Rigaux, Peter 05 December 2008 (has links) Les effets anti-allergiques des bactéries lactiques sont suggérés par plusieurs études épidémiologiques, des essais cliniques et des modèles expérimentaux d’allergie. Cependant, les propriétés immunomodulatrices des bactéries lactiques sont sous-exploitées par les stratégies vaccinales développées pour combattre l’allergie et les mécanismes empruntés par ces bactéries pour moduler l’allergie restent peu caractérisés.<p>Dès lors, nous avons caractérisé les propriétés immunomodulatrices qu’exerce Lactobacillus plantarum NCIMB8826, une bactérie lactique modèle, sur la cellule dendritique étant donné le rôle déterminant de cette cellule sur la réponse allergique. Nous montrons que L. plantarum induit une forte sécrétion d’IL-12 p40, d’IL-12 p70, de TNF-a mais une faible production d’IL-10. Cette faculté à induire la sécrétion de cytokines polarisantes dépend de TLR2, de TLR9, de MyD88, de NF-kB, des MAPKs (en particulier JNK, p38 et ERK 1/2), de la composition de l’acide lipotéichoïque de L. plantarum et de CD14. Nous montrons aussi que l’ADN génomique de L. plantarum est un agoniste de TLR9 et que CD14 et CD36 facilitent la liaison de la cellule dendritique avec L. plantarum.<p>Ensuite, nous avons évalué le potentiel vaccinal d’une coadministration L. plantarum + Der p 1 dans un modèle murin d’allergie à Der p 1. Cette formulation vaccinale prévient la production d’IgE Der p 1-spécifique et atténue l’éosinophilie pulmonaire tout en stimulant une forte production d’anticorps IgG2a Der p 1-spécifiques et d’IFN-g par les cellules spléniques. Ces effets bénéfiques nous ont conduit à élaborer une bactérie lactique recombinante dérivée de L. plantarum produisant Der p 1 pour la vaccination contre l’allergie aux acariens. La forme antigénique que nous avons réussi à faire produire par L. plantarum correspond à une protéine de fusion entre la Maltose Binding Protein de E. coli et ProDer p 1 (le zymogène de Der p 1), la présence de ce partenaire de fusion étant indispensable à la production de ProDer p 1. En prophylaxie, la vaccination par cette bactérie recombinante prévient la production d’anticorps IgE-Der p 1-spécifiques et stimule la production d’anticorps IgG2a spécifiques, reproduisant les effets de la coadministration L. plantarum + Der p 1. Elle réduit de manière drastique la production d’IL-5 des cellules spléniques et des cellules ganglionnaires médiastinales et prévient l’éosinophilie pulmonaire mais n’a pas d’effet sur l’hyperréactivité bronchique. Der p 1 étant un des allergènes d’acarien les plus immunodominants, cet ensemble de données montre donc que cette bactérie recombinante constitue un vaccin prophylactique prometteur pour la prévention de l’allergie aux acariens. Des résultats préliminaires obtenus à partir de cellules dendritiques humaines et lymphocytes T autologues montrent la forte capacité de cette bactérie recombinante à induire le développement d’une réponse Th1 fortement polarisée (production d’IFN-g en l’absence de production d’IL-4 et d’IL-5), ce qui suggère que l’utilisation de cette bactérie recombinante pourrait être envisagée pour le traitement de l’allergie chez l’homme. <p> / Doctorat en Sciences agronomiques et ingénierie biologique / info:eu-repo/semantics/nonPublished Agronomie générale Sciences exactes et naturelles Lactic acid bacteria Antiallergic agents Mites allergy Ferments lactiques Antiallergiques Allergie aux acariens recombinant lactic acid bacteria bactérie lactique recombinante Der p 1 Toll-like receptor vaccine vaccin allergie aux acariens house dust mite allergy
418	Efeito de autólise de culturas lácticas na proteólise do queijo Prato / Autolysis effect of lactic cultures proteolysis in cheese dish Izildinha Moreno 10 April 2003 (has links) Nesta pesquisa, estudaram-se as variações ocorridas na relação entre autólise de culturas lácticas e o desenvolvimento da proteólise de queijo Prato produzido em quatro regiões brasileiras: Santa Catarina (Queijo A), Goiás (Queijo B), São Paulo (Queijo C) e Minas Gerais (Queijo D). A análise quantitativa da população de bactérias lácticas durante a maturação mostrou perfis microbiológicos similares para todas as amostras de queijos examinadas. Após 5 dias de maturação, lactococos e estreptococos estavam presentes em números mais elevados do que lactobacilos mesofílicos e termofílicos, leuconostoc e fermentadores de lactato. Contudo, essas populações aumentaram consideravelmente no final do processo de maturação. Enterococos e fermentadores de citrato permaneceram em números relativamente reduzidos ao longo da maturação. A análise qualitativa mostrou a predominância de \"non starter lactic acid bactéria\" (NSLAB) nos queijos das quatro origens, principalmente de Lactobacillus sp. Outros gêneros foram identificados em menor proporção: Enterococcus sp., Pediococcus sp., Aerococcus sp., Tetragenococcus sp. e Streptococcus sp. O queijo C diferiu dos demais por não apresentar Pediococcus sp. e Streptococcus sp. As culturas lácticas adicionadas Lactococcus lacfis sp. e Leuconostoc sp. estavam presentes em populações menores. A autólise foi estudada pela determinação da atividade de aminopeptidases e detecção de autolisinas por zimogramas e de enzimas intracelulares por \"imunoblotting\". Uma maior liberação de aminopeptidases ocorreu no queijo D, seguido dos queijos C, B e A. Não foram detectadas bandas de atividade lítica nos zimogramas dos queijos A e B em todas as condições avaliadas. Nos zimogramas, detectou-se uma banda de 30 KDa nos queijos C e D a pH 7,4 e 44°C, e uma outra de 40 KDa, exclusiva no queijo D, ambas de fraca intensidade. A pH 6,8 e 42°C, detectou-se bandas de 40KDa de fraca intensidade no queijo C e forte no D, além de mais duas de fraca intensidade de 90KDa e 110KDa no queijo D. Na análise em \"imunnoblotting\" com o antisoro anti-Lc, foi observado apenas sinais fracos de reação positiva e em números inferiores àquelas reveladas com o citoplasma bruto de Lac. Lacfis subsp. lacfis (controle positivo), indicando que a autólise foi praticamente inexistente. Com o antisoro anti-D-LDH, também não se detectou sinais de reação positiva nos queijos A e B, enquanto nos queijos C e D, verificou-se sinais positivos de 37KDa, de forte intensidade e correspondentes à proteína D-LDH, indicando a lise de Lab. helveticus. A evolução da proteólise foi determinada quantitativamente durante a maturação e avaliada com base nos índices: NS-pH4,6/NT% e NNP/NT%, teor de tirosina, eletroforese (Uréia-PAGE) e quantificação de aminoácidos individuais livres. Não foram detectadas diferenças significativas entre os queijos A. B, C e D no início da maturação. Contudo, com a fragmentação das proteínas, ocorreu um aumento gradual desses índices, tendo-se observado valores mais elevados no queijo D, seguido dos queijos C, B e A. Os perfis eletroforéticos de proteínas foram similares para os queijos das quatro origens e mostraram claramente que o coagulante e a plasmina foram os responsáveis pela degradação inicial das caseínas. A taxa de degradação da αs1- e β-caseína apresentou a seguinte ordem: D > C ≥ B > A. O acúmulo de aminoácidos livres também foi mais rápido no queijo D, seguido dos queijos C, B e A. Portanto, a autólise de Lab. helveticus no queijo D acelerou a proteólise, diminuindo o período de maturação em 45% e não afetando negativamente o desenvolvimento de \"flavour\" e nem a textura. No final da maturação (45 dias), os compostos voláteis foram determinados por meio de cromatografia gasosa com espectrometria de massa (CG-MS). Com raras exceções, os queijos das quatro origens continham os mesmos compostos voláteis, embora em quantidades distintas. Os álcoois e ésters foram os compostos majoritários nos queijos A e B e benzaldeído, 3-metil-butanal-2 e hexanal nos C e D. O perfil de textura instrumental (TPA) e a análise sensorial descritiva e quantitativa foram realizados. Os queijos B, C e D apresentaram características mais típicas de queijo Prato, independentemente do fato de que o aroma de manteiga e o sabor doce serem mais acentuados no queijo D. O queijo A foi classificado como tendo as menores características de queijo Prato e apresentou maior nível de defeitos de \"flavour\", principalmente residual e amargor. Os queijos avaliados não apresentaram diferenças significativas quanto à elasticidade e coesividade. Pequenas alterações na composição físico-química dos queijos, principalmente os teores de umidade e de caseína, influenciaram nos parâmetros como a firmeza e a adesividade. O presente estudo demonstrou pela primeira vez a ausência de autólise de Lc. Lacfis sp. em queijo Prato de quatro origens, bem como a ocorrência de autólise de Lab. helveticus nos queijos de duas origens, C e D. A pronunciada autólise dessa espécie teve um impacto positivo na proteólise e foi a responsável pelo aumento da concentração de aminoácidos livres nesses queijos. As diferenças na evolução da proteólise observada entre os queijos C e D, com taxas mais baixas no queijo C, independentemente da autólise pronunciada de Lab. helveticus, foram atribuídas à falta de uniformidade na composição físico-química dos queijos, principalmente pH e os teores de sal na umidade (S/U). / This paper reports a study aimed at evaluating the variations that occur in the interrelationship between autolysis of lactic starter bacteria and the development of proteolysis in Prato cheese produced in four different regions of Brazil: Santa Catarina (Cheese A), Goiás (Cheese B), São Paulo (Cheese C) and Minas Gerais (Cheese D). Quantitative analysis of microbial population yielded similar microbiological profiles for all the cheese samples investigated. After 5 days ripening, lactococci and streptococci were present in higher numbers than mesophilic and thermophilic lactobacilli, leuconostoc and lactate fermenting bacteria. However, the populations of the latter species had considerably increased by the time the ripening process completed 45 days. Enterococci and citrate fermenting bacteria remained present in relatively low numbers throughout ripening. The findings from qualitative analysis confirmed the predominance of non-starter lactic acid bacteria (NSLAB) in the cheeses from four different origins, especially Lactobacillus sp. Other genera of non-starter lactic acid bacteria (NSLAB) were identified in smaller proportions: Enterococcus sp., Pediococcus sp., Aerococcus sp., Tetragenococcus sp. and Streptococcus sp. Cheese C differed from the cheeses in that it no evidence was found of the presence of Pediococcus sp. and Streptococcus sp. The bacteria of the lactic starter culture Lactococcus lactis sp. and Leuconostoc sp. were also found to be present, although in lower numbers. Autolysis was studied by: (1) determination of aminopeptidase activity; (2) detection of autolysins by zymograms and (3) detection of intracellular enzymes by immunoblotting. The release of aminopeptidase was highest in cheese D, followed by C, B and A. No bands of lytic activity were appeared in the zymograms of Cheeses A and B in all conditions evaluated. At pH 7,4 and 44°C, a low-intensity band of 30 KDa was found in cheeses C e D, whereas another low-intensity band was observed only in cheese D. At pH 6,8 and 42°C, bands of 40KDa were observed in cheese C (low intensity) and cheese D (high intensity), in addition to two more low-intensity bands of 90KDa and 110KDa in cheese D. Immunoblotting with antiserum anti-Lc produced only minor signs of positive reaction, evidenced by the formation of low-intensity bands of 100 Kda in cheeses A and B and two high-intensity bands of 75 Kda and 100 Kda in cheeses C and D. Since these were present in smaller numbers to those revealed with crude cytoplasm of Lac. lactis subsp. lactis, it was concluded that autolysis did practically non occur. Immunoblotting with antiserum anti-D-LDH also detected sings of positive reaction in cheeses A and B, whereas in cheeses C e D positive high-intensity signs of 37Kda were found relative to D-LDH protein, indicating lysis of Lab. helveticus. The evolution of proteolysis was determined quantitatively during the ripening process and evaluated on the basis of the following parameters: NS-pH4,6/NT% and NNP/NT% indexes, tyrosine content, electrophoresis (Urea-PAGE) and quantification of free amino acids. No significant differences were found between cheeses A, B, C and D in the ear1y stages of ripening. However, with the on-going fragmentation of proteins during ripening, a gradual increase of the ripening indexes occurred, with the highest values being observed in cheese D, followed by C, B e A. The electrophoretic profiles were similar for the four cheeses investigated and clear1y showed that the clotting agent or milk coagulant and plasmin were responsible for the initial breakdown of the caseins. The degradation rate of Q.sl- and p-casein followed the following order: D > C ≥ B > A. The buildup of free amino acids was also faster in cheese D, followed by cheeses C, B e A. At the end of the ripening process studied (45 days), the volatile compounds were identified using gas chromatography and mass spectrometry (GC-MS), whereas the instrumental texture profile was measured and evaluated by Texture Profile Analysis (TPA). Cheese samples were evaluated by descriptive and quantitative sensory analysis. With rare exceptions, the cheeses of four different origins contained the same volatile compounds, although in different quantities. Alcohols and esters were the predominant volatile compounds in cheeses A and B and benzaldehyde, 3-methyl-butanal-2 and hexanal in cheeses C and D. Autolysis of Lb. helveticus accelerated proteolysis in cheese D, thereby reducing ripening time by 45% without any negative effect on either flavor or texture development. Cheeses B, C and D exhibited the most typical Prato cheese characteristics, in spite of the fact that the buttery aroma and sweet taste were more pronounced in cheese D. Cheese A was rated as the cheese with the less typical overall Prato cheese profile and was also the one that exhibited the highest degree and number of flavor defects, notably aftertaste and bitterness. The cheeses investigated did not present any significant differences as to elasticity and cohesiveness. Minor changes in the physical-chemical composition of the cheeses - mainly related to the moisture and casein levels - influenced parameters such as firmness and adhesiveness. The present study demonstrates for the very first time the absence of autolysis of Lc. Lactis sp. in Prato cheese from four different origins, as well as the occurrence of autolysis of Lb. helveticus in two of the cheeses analyzed (cheeses C and D). The pronounced autolysis of this species had a positive impact on proteolysis and was responsible for the release of increased quantities of free amino acids in these cheeses. The differences in the evolution of proteolysis observed between cheeses C and D - lower rate of proteolysis in cheese C, in spite of pronounced autolysis of Lb. helveticus - were attributed to poor uniformity of the physical-chemical composition of this cheese, particularly as related to pH and the salt and moisture levels (S/M). Autólise Bactérias lácticas Laticínios (Microbiologia) Maturação de queijos Microbiologia de alimentos Microbiota láctica Proteólise Queijo (Análise; Microbiologia) Queijo Prato Autolysis Cheese (Analysis Cheese Plate Dairy (Microbiology) Food microbiology Lactic acid bacteria Lactic microbiota Microbiology) Proteolysis Ripening cheese
419	Development of a Nigerian fermented maize food 'Akamu' as a functional food Obinna-Echem, Patience Chisa January 2014 (has links) Akamu is a lactic acid bacteria fermented cereal-based food that complements infant diets in most African countries. Uncontrolled fermentation increases the variability in quality and safety of akamu. This study was aimed at the controlled fermentation of akamu with selected lactic acid bacteria (LAB), investigation of the probiotic potential of the LAB and the effect of variation in production method on the product quality and sensory properties. PCR-DGGE analysis of traditional akamu samples revealed LAB community dominated by Lactobacillus fermentum, L. plantarum, L. delbrueckii subsp. bulgaricus and L. helveticus. Isolated yeasts were Candida tropicalis, C. albicans, Clavispora lusitaniae and Saccharomyces paradoxus. The isolated Lactobacillus plantarum strains (NGL5 and NGL7) fermented irradiated ground maize slurries and produced significant levels of lactic acid (>73 mmol L-1) and low pH ≤3.63 displaying inhibitory activity against Salmonella enterica serovar Enteritidis NCTC 5188, Escherichia coli 1077 (NCTC 11560), Bacillus cereus NCIMB 11925, Staphylococcus aureus NCTC 3750 and Listeria monocytogenes NCTC 7973 in MRS agar and E. coli 1077 in maize slurry fermentation. Viability of both strains of L. plantarum at pH 2 after 3 h was reduced from ≥8.26±0.05 to ≤4.94±0.49 Log10 CFU mL-1 while incubation in 0.3% bile allowed growth to 5.73±0.13 and 7.93±0.12 Log10 CFU mL-1 after 6 h for NGL5 and NGL7 respectively. Auto-aggregation of the L. plantarum strains at 37oC (≥25 after 5 h) correlated with adhesion to hydrocarbons (<15, 26, 33 and 64% for Hexane, Hexadecane, Ethyl acetate and Chloroform respectively). The strains failed to exhibit gelatinase or haemolytic activity but adhered to porcine mucin (OD403 nm ≥0.63 with viability ≥6.52 Log10 CFU mL-1) and Caco-2 cells (≥5.13 Log10 CFU mL-1). The ash, mineral (Ca, K, Mg, Na, S and Zn), IDF, SDFP and TDF content of the L. plantarum fermented ground maize slurries were significantly (p≤0.05) higher than that of the traditional akamu but the peak and final viscosities (139.5 and 68.5 cP respectively) were significantly (p≤0.05) the least. The aroma, appearance, colour, flavour and texture of the resultant porridges were liked moderately by 75% of the assessors. This study demonstrated that fermentation with the L. plantarum strains would contribute towards product safety and the L. plantarum strains possessed some probiotic potential that could be beneficial to the consumers particularly in those developing countries were the main staple foods are fermented cereals. 641.3
420	Screening, identification and characterisation of bacteriocins produced by the wine isolated LAB Ndlovu, Joseph Buyani 03 1900 (has links) Thesis (MSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Lactic acid bacteria (LAB) play a vital role in reducing wine acidity and also contributing to its aroma and flavour. However, they can also be responsible for many wine spoilage problems that compromise the quality and value of wine. While Oenococcus oeni contributes positive characteristics to the sensory properties of wine, certain species of the genera, Lactobacillus and Pediococcus can affect the wholesomeness of wine by producing undesirable compounds, such as biogenic amines and ethyl carbamate. Chemical preservatives like sulphur dioxide (SO2) are used to prevent the growth of spoilage micro-organisms during the winemaking process. SO2 also acts as a reducing agent and maintains the benefits of antioxidant properties of the polyphenols of wine. However, there is a worldwide demand to reduce SO2 levels due to the increasing health related risks and other factors. All these considerations have increased the interest in research to look for new preservation strategies, and LAB-produced bacteriocins seem to be a potential alternative that has been explored in the last decade. Various types of bacteriocins have been identified and characterized. However, there are few reports on bacteriocins produced by LAB of oenological origin or on bacteriocins present in the finished wine. The present study screened 155 LAB isolates from the IWBT culture collection for bacteriocin production. The isolates originated from South African red wines undergoing spontenous malolactic fermentation (MLF). Eight strains (5%) were identified to be producers, as evidenced by strong inhibition zones formed against sensitive organisms on agar plates. The producers demonstrated a broad spectrum of antimicrobial activity by inhibiting Lactobacillus spp., Leuconostoc mesenteroides, Listeria monocytogenes and Pediococcus pentosaceus strains. Some of these bacterial genera are important in winemaking since they are potential wine spoilage bacteria. Hence these strains and/or the bacteriocins they produce could possibly find application in the food fermentation industry. The physiological results, biochemical tests and sugar fermentation profiles all gave the same results for the seven isolates, which were indicative of enterococci. The identification through 16S rRNA gene sequencing revealed that the seven tested isolates were all Enterococccus faecium. RAPD-PCR fingerprinting gave the same profile for the seven strains confirming that they were all identical on genetic level. Determining the molecular weight using SDS-PAGE showed the peptides to be below 4.6 kDa in size. PCR amplification of the enterocin P gene, sequencing and BLAST search results confirmed that all eight strains contained the enterocin P gene from Ent. faecium. The enterocin tested in this study was heat stable at 100°C (30 min), but lost 50% of its activity at 121°C (15 min). Factors such as bacteriocin production and heat resistance are among many that enable enterococci to be dominant in fermented products such as dairy foods or meat. Therefore, enterococci producing bacteriocins have potential applications in various foods and fermented products. The pH tests showed enterocin to be active over a broad pH range (2-10). Enterocin activity over a wide pH range make them potentially more suitable as natural preservatives of foods and fermented products where products are acidified or pH decreases due to natural LAB present. They also have potential applications in oenological process where pH levels are as low as 3 and 4. Proteolytic enzyme treatments with lysozyme, lipase, lyticase and catalase could not inhibit enterocin activity. This indicated that their antimicrobial activity was independent of lipid or carbohydrate moieties or hydrogen peroxide. α-Chymotrypsin and proteinase K inactivated enterocin, which indicated that the compound was proteinaceous in nature. Bacteriocin production tested in two of the isolates, #16.3 and 128.1, coincided with the exponential growth phase which occurred after 6 hours of incubation at 30°C, which was an indication of primary metabolite kinetics. The highest production of 400 AU/ml was observed after eight hours and was maintained for several hours (46 hours) in the stationery phase. The bactericidal effect of the cell free supernatants from #16.3 and 128.1 against the sensitive culture of Lactobacillus pentosus DSM 20314 was clearly demonstrated by complete inhibition of growth for most of the experimental period, while the control increased exponentially throughout the experiment. In conclusion, this study has confirmed the isolation and identification of Ent. faecium strains from wine, a genus that is rarely found in the wine environment. Although one can speculate on the origin of this bacterium in the wine e.g. human handling and contaminated water, these bacterial isolates produced enterocin P which have antimicrobial action against wine-related LAB genera and therefore have a potential role in wine spoilage control. / AFRIKAANSE OPSOMMING: Melksuurbakterieë (MSB) speel ‘n belangrike rol in die redusering van die suurgehalte van wyn en dra ook by tot die aroma en smaak daarvan. Hulle kan egter ook verantwoordelik wees vir vele wynbederfprobleme wat die gehalte en waarde van wyn negatief beïnvloed. Hoewel Oenococcus oeni positiewe karaktertrekke aan die sensoriese eienskappe van wyn verleen, kan sekere spesies van die genus, Lactobacillus en Pediococcus, die heilsaamheid van wyn beïnvloed deur ongewenste verbindings, soos biogeniese amienes en etielkarbamaat, te produseer. Chemiese preserveermiddels, soos swaweldioksied (SO₂), word gebruik om die groei van bederfmikro-organismes tydens die wynbereidingsproses te voorkom. SO₂ fungeer ook as ‘n reduseermiddel en onderhou die voordele van die antioksidant eienskappe van die poli-fenole van wyn. Daar is egter ‘n wêreldwye vraag na die redusering van SO₂-vlakke as gevolg van die toename in gesondheidsverwante risiko’s en ander faktore. Al hierdie oorwegings het belangstelling in die navorsing van nuwe preserveringstrategieë laat toeneem en MSB-geproduseerde bakteriosiene lyk na ‘n potensiële alternatief wat in die laaste dekade ondersoek word. Verskeie tipes bakteriosiene is geïdentifiseer en getipeer. Daar is egter nog weinig gerapporteer oor bakteriosiene wat deur MSB van wynkundige oorsprong geproduseer is of oor bakteriosiene wat in afgeronde wyn teenwoordig is. Die huidige studie het 155 MSB isolate van die Instituut vir Wynbiotegnologie se kultuurversameling vir bakteriosien-produsering gegradeer. Agt stamme (5%) is as produseerders geïdentifiseer, soos gestaaf is deur sterk inhibisiesones wat teen sensitiewe organismes op agarplate gevorm het. Die produseerders het ‘n breë spektrum van antimikrobiese aktiwiteit by inhiberende Lactobacillus spp., Leuconostoc mesenteroides, Listeria monocytogenes en Pediococcus pentosaceus stamme gedemonstreer. Sommige van hierdie bakteriese genera is belangrik in wynbereiding, omdat dit potensiële wynbederfbakterieë is. Hierdie isolate en/of die bakteriosiene wat dit produseer, kan dus moontlik toepassing in die voedselfermentasiebedryf vind. Die fisiologiese resultate, biochemiese toetse en suikerfermentasieprofiele het almal dieselfde resultate vir die sewe isolate, wat indikatief van enterococci was, gelewer. Die identifisering deur 16S rRNA-basispaaropeenvolging het onthul dat die sewe getoetste isolate almal Enterococccus faecium was. RAPD-PKR-vingerafdrukke het dieselfde profiel vir die sewe rasse gelewer, wat bevestig dat die rasse almal identies op genetiese vlak was. Deur die molekulêre gewig vas te stel deur middel van SDSPAGE, het dit getoon dat die peptiede kleiner as 4.6 kDa in grootte is. PKR-amplifikasie van die enterosien-P geen, die bepaling van basispaaropeenvolging en BLAST-soekresultate het bevestig dat al agt rasse die enterosien-Pgeen van Ent. faecium bevat. Die enterosien wat in hierdie studie getoets is, was hitte-stabiel teen 100°C (30 min), maar het 50% van sy aktiwiteit teen 121°C (15 min) verloor. Faktore soos bakteriosienproduksie en hittebestandheid, is van die vele faktore wat enterococci in staat stel om dominant in gefermenteerde produkte, soos suiwelprodukte of vleis te wees. Enterococci wat bakteriosiene produseer het dus potensiële toepassings in verskeie kossoorte en gefermenteerde produkte. Die pH-toetse het getoon dat enterosien-P oor ‘n breë pH spektrum (2-10) aktief was. Enterosienaktiwiteit oor ‘n wye pH spektrum maak dit potensieel meer geskik as natuurlike preserveermiddels vir kossoorte en gefermenteerde produkte waar produkte versuur word of die pH afneem as gevolg van natuurlike MSB wat teenwoordig is. Dit het ook potensiële toepassings in enologiese prosessering waar pH-vlakke so laag as 3 en 4 is. Proteolitiese ensiembehandelings met lisosiem, lipase, litikase en katalase kon nie enterosienaktiwiteit inhibeer nie. Daar is getoon dat hul antimikrobiese aktiwiteit onafhanklik was van lipiede, koolhidraatdele óf waterstofperoksied. α-Chymotripsien en proteïenase-K het enterosien onaktief gemaak, wat getoon het dat die samestelling proteïenagtig van nature is. Bakteriosienproduksie wat in twee van die stamme #16.3 en 128.1 getoets is, het ooreengestem met die eksponensiële groeifase wat na 6 ure van inkubasie teen 30°C plaasgevind het, en wat ‘n aanduiding is van primêre metabolitiese kinetika. Die hoogste produksie van 400 AU/ml is na agt ure waargeneem en is vir etlike ure (46 uur) in die stasionêre fase gehandhaaf. Die bakterie-dodende effek van die selvrye supernatant van #16.3 en 128.1 teenoor die sensitiewe kultuur van Lactobacillus pentosus DSM 20314 is duidelik gedemonstreer deur totale inhibisie van groei vir die grootste deel van die eksperimentele periode, terwyl die kontrole eksponensieel deur die hele eksperiment toegeneem het. Hierdie studie het dus die isolering en identifisering van Ent. faecium-stamme, ‘n genus wat baie selde gevind word in ‘n wynomgewing, vanuit wyn bevestig. Alhoewel daar gespekuleer kan word oor die oorsprong van hierdie bakterie in wyn bv. menslike hantering en besmette water, het hierdie rasse wel enterosien geproduseer en daarom die potensiaal om ‘n rol te speel in beheer teen verskeie bederf-MSB-genera. / TIA, NRF and THRIP Wine and wine making -- Quality Wine -- Preservation strategies Lactic acid bacteria (LAB) Theses -- Wine biotechnology Dissertations -- Wine biotechnology

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