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31	Investigation of Burkholderia cepacia Virulence Mykrantz, Hallie B. 22 April 2005 (has links) No description available. Biology, Microbiology Caenorhabditis elegans Burkholderia cepacia cystic fibrosis virulence mechanisms transposon mutagenesis lipase protease phospholipase C
32	Compréhension et prédiction de l'énantiosélectivité des lipases / Comprehension and prediction of lipases enantioselectivity Lafaquière, Vincent 19 January 2010 (has links) Cette étude a porté sur l’analyse de l’énantiosélectivité de la lipase de Burkholderia cepacia (BCL) pour les acides 2-substitués, synthons chiraux d’intérêt pharmaceutique, avec pour objectif d’examiner le rôle de l’accès au site actif enfoui de BCL sur l’énantiosélectivité et de développer une procédure d’ingénierie permettant de créer des mutants d’énantiosélectivité améliorée. Pour traiter le problème, une nouvelle approche de calcul, basée sur des algorithmes de planification de mouvements issus de la robotique a été développée. Elle permet l’exploration conformationnelle des espaces multi-dimensionnels contraints et a été appliquée au calcul des trajectoires de plusieurs racémiques dans le site actif de BCL et à l’identification de résidus pouvant potentiellement gêner le déplacement du substrat le long du site actif. Les résultats obtenus in silico ont révélé une corrélation qualitative avec les valeurs d’énantiosélectivité et ont permis de proposer des cibles de mutagénèse. Sur cette base, l’ingénierie du site actif de BCL a été entreprise pour moduler sélectivement l’accès des énantiomères R et S à la triade catalytique. Un système d’expression hétérologue de BCL chez E. coli compatible avec une expression en microplaque, a été développé. Une librairie de 57 (3x19) mono-mutants sur les positions : Leu17, Val266 et Leu287 a été construite par iPCR puis criblée en utilisant une procédure à moyen débit pour identifier les variants actifs pour l’hydrolyse du pNPB. L’énantiosélectivité de ces mutants a ensuite été évaluée pour l’hydrolyse du racémique (R,S)-2 bromophényl acétate de 2-chloro-éthyle, par utilisation d’une nouvelle procédure de criblage en deep-wells. Ce crible a permis de mettre en évidence plusieurs mutants dont les plus prometteurs ont été caractérisés. Ainsi les mutants Leu17Ser et Leu17Met présentent une augmentation de l’énantiosélectivité d’un facteur 10 accompagnée d’une augmentation de leur activité d’un facteur 4 à 5. Le mutant Val266Gly présente, quant à lui, une inversion de l’énantiosélectivité pour le substrat d’intérêt. L’étude des trajectoires par les techniques de planification combinée à une représentation sous la forme de carte de voxels a été réalisée en parallèle. Pour les mutants sélectionnés, une bonne corrélation a été observée entre les résultats obtenus in silico et expérimentalement. De plus, cela a permis de proposer de nouvelles combinaisons de mutations ayant conduit à l’identification de deux double-mutants Leu17Met/Val266Met et Leu17Ser/Leu287Ile d’énantiosélectivité supérieure à 150 pour le substrat modèle, révélant ainsi l’intérêt de l’approche semi-rationnelle proposée / This work has been focused on the understanding of the Burkholderia cepacia lipase (BCL) enantioselectivity towards 2-substituted acids which are chiral building blocks of pharmaceutical interest. The main objective of this work was the investigation of the potential role of substrate accessibility toward the buried active site of BCL on enantioselectivity and the development of an engineering procedure for the design of enantioselective mutants. To study further this hypothesis, a novel computational approach, based on motion-planning algorithms, originally used in robotics, was developed. It allows the conformational exploration of constrained high-dimensional spaces and was applied to the computation of trajectories for a set of racemates within the catalytic site. This methodology also enables the identification of residues potentially hindering substrates displacement along the active site. Results obtained in silico were correlated qualitatively with experimental values of enantioselectivity. On the basis of these results, engineering of the narrow active site of BCL has been undertaken to modulate selectively the access of R and S enantiomers to the catalytic triade. An heterologous expression system of BCL in E. coli compatible with production at microplate scale was developed. A library of 57 (3x19) variants targeted at positions Leu17, Val266 and Leu287 was built by iPCR and subsequently screened using a medium-throughput procedure to identify active variants against pNPB hydrolysis. Next, the enantioselectivity of these mutants was evaluated towards a given racemate, the (R,S)-2-chloro ethyl 2-bromophenylacetate, using a novel screening procedure developed in deep wells. Such screening enabled the identification of several variants amongst which the most promising were characterized. Mutants Leu17Ser and Leu17Met showed a remarkable 10-fold increase of their enantioselectivity and a 4- and 5-fold improvement of their specific activity. Compared to the wild-type enzyme, mutant Val266Gly displayed a reversed enantioselectivity for the substrate of interest. Investigation of the trajectories using motion-planning techniques combined to a voxel map representation was carried out. For selected variants, a fair correlation was observed between in silico and experimental results. Moreover, this enabled us to suggest novel combinations of mutations that led to the identification of two double-mutants Leu17Met/Val266Met and Leu17Ser/Leu287Ile showing an enantioselectivity value higher than 150 for the racemic substrate, revealing thus the effiency of the semi-rational strategy Lipase de Burkholderia cepacia Mutagénèse dirigée Criblage Énantiosélectivité Modélisation moléculaire Accessibilité du substrat Motion planning algorithms Burkholderia cepacia lipase Directed mutagenesis E. coli heterologous expression Screening Enantioselectivity Molecular modeling Substrate accessibility
33	Identificação de genes envolvidos na síntese de polihidroxialcanoatos em Burkholderia cepacia linhagem IPT64. / Identification of genes involved in the synthesis of polyhydroxyalkanoates on Burkholderia cepacia strain IPT64. Caulkins, Juliana Carvalho de Arruda 05 December 2008 (has links) Os polihidroxialcanoatos (PHAs) são poliésteres acumulados por microrganismos como material de reserva. O conhecimento das vias bioquímicas e enzimas envolvidas na biossíntese e degradação dos PHAs é uma importante ferramenta para auxiliar na produção industrial. A linhagem Burkholderia cepacia IPT64 é capaz de acumular uma blenda composta de P(3HB) e P(3H4PE) a partir de sacarose. Este trabalho está focado em duas das principais enzimas envolvidas na biossíntese de PHAs: a b-cetotiolase (phaA) e a PHA sintase (phaC). A primeira está associada à especificidade pelo substrato, e a segunda é considerada a enzima chave na síntese de PHAs. Neste trabalho a linhagem mutante phaC foi avaliada quanto à atividade enzimática de PHB sintase, que se constatou ter sido perdida. A presença de mais de uma tiolase no genoma de B. cepacia foi detectada. A inativação do gene phaABc identificado anteriormente, bloqueou totalmente a síntese de P(3HB), e não promoveu o aumento da quantidade total de polímero. Este resultado indica que a tiolase identificada é responsável direta do acúmulo de P(3HB). Outra indicação é que não há uma competição das vias de síntese dos dois polímeros P(3HB) e P(3H4PE), já que não houve alteração na quantidade de P(3H4PE) acumulado, mesmo quando P(3HB) deixou de ser acumulado. / The polyhydroxyalkanoates (PHAs) are polyesters accumulated by microorganisms as storage compounds. Knowing the biochemistry pathway and enzymes involved in the biosynthesis and degradation of PHAs is an important tool to help industrial production. The Burkholderia cepacia IPT64 strain is able to accumulate a blend of P(3HB) and P(3H4PE) from sucrose. The focus of this work is on the two main enzymes involved in PHA biosynthesis: the b-ketothiolase (phaA) and the PHA synthase (phaC). The first one is associated with substrate specificity, and the second one is considered the key enzyme in PHA synthesis. In this work a mutant strain phaC was evaluated on its PHB synthase enzymatic activity, that was discovered to have been lost. The presence of other thiolases in the B. cepacia genome was detected. The inactivation of phaABc gene identified previously, blocked totally the P(3HB) synthesis, and didnt increase the polymer content. This result indicates that the identified thiolase is directly responsible for P(3HB) accumulation. Another indication is that the synthesis pathways of the two polymers, P(3HB) and P(3H4PE), dont compete with each other, because the content of P(3H4PE) was not altered, even when the P(3HB) was not accumulated. b-cetotiolase Burkholderia cepacia Burkholderia cepacia Biodegradable polymers Biotechnology Biotecnologia Genética bacteriana Genetics bacterial PHA- Sintase PHA-synthase PHB PHB Polihidroxialcanoatos Polímeros biodegradáveis Polyhydroxyalkanoates
34	Identificação de genes envolvidos na síntese de polihidroxialcanoatos em Burkholderia cepacia linhagem IPT64. / Identification of genes involved in the synthesis of polyhydroxyalkanoates on Burkholderia cepacia strain IPT64. Juliana Carvalho de Arruda Caulkins 05 December 2008 (has links) Os polihidroxialcanoatos (PHAs) são poliésteres acumulados por microrganismos como material de reserva. O conhecimento das vias bioquímicas e enzimas envolvidas na biossíntese e degradação dos PHAs é uma importante ferramenta para auxiliar na produção industrial. A linhagem Burkholderia cepacia IPT64 é capaz de acumular uma blenda composta de P(3HB) e P(3H4PE) a partir de sacarose. Este trabalho está focado em duas das principais enzimas envolvidas na biossíntese de PHAs: a b-cetotiolase (phaA) e a PHA sintase (phaC). A primeira está associada à especificidade pelo substrato, e a segunda é considerada a enzima chave na síntese de PHAs. Neste trabalho a linhagem mutante phaC foi avaliada quanto à atividade enzimática de PHB sintase, que se constatou ter sido perdida. A presença de mais de uma tiolase no genoma de B. cepacia foi detectada. A inativação do gene phaABc identificado anteriormente, bloqueou totalmente a síntese de P(3HB), e não promoveu o aumento da quantidade total de polímero. Este resultado indica que a tiolase identificada é responsável direta do acúmulo de P(3HB). Outra indicação é que não há uma competição das vias de síntese dos dois polímeros P(3HB) e P(3H4PE), já que não houve alteração na quantidade de P(3H4PE) acumulado, mesmo quando P(3HB) deixou de ser acumulado. / The polyhydroxyalkanoates (PHAs) are polyesters accumulated by microorganisms as storage compounds. Knowing the biochemistry pathway and enzymes involved in the biosynthesis and degradation of PHAs is an important tool to help industrial production. The Burkholderia cepacia IPT64 strain is able to accumulate a blend of P(3HB) and P(3H4PE) from sucrose. The focus of this work is on the two main enzymes involved in PHA biosynthesis: the b-ketothiolase (phaA) and the PHA synthase (phaC). The first one is associated with substrate specificity, and the second one is considered the key enzyme in PHA synthesis. In this work a mutant strain phaC was evaluated on its PHB synthase enzymatic activity, that was discovered to have been lost. The presence of other thiolases in the B. cepacia genome was detected. The inactivation of phaABc gene identified previously, blocked totally the P(3HB) synthesis, and didnt increase the polymer content. This result indicates that the identified thiolase is directly responsible for P(3HB) accumulation. Another indication is that the synthesis pathways of the two polymers, P(3HB) and P(3H4PE), dont compete with each other, because the content of P(3H4PE) was not altered, even when the P(3HB) was not accumulated. b-cetotiolase Burkholderia cepacia Biotecnologia Genética bacteriana PHA- Sintase PHB Polihidroxialcanoatos Polímeros biodegradáveis Burkholderia cepacia Biodegradable polymers Biotechnology Genetics bacterial PHA-synthase PHB Polyhydroxyalkanoates
35	Diversidade e caracterização genética de comunidades microbianas endofíticas associadas à cana-de-açúcar / Diversity and genetic characterization of endophytic microbial communities associated with sugarcane Mendes, Rodrigo 03 March 2008 (has links) A cana-de-açúcar é uma das principais culturas do Brasil e nos últimos anos está recebendo especial atenção devido ao crescente aumento da área cultivada e produção de etanol para uso como biocombustível. Considerando-se sua importância econômica e a possibilidade do uso de plantas geneticamente modificadas, essa cultura tem se tornado foco de pesquisas relacionadas à produtividade e sustentabilidade. Neste contexto, o estudo de comunidades microbianas associadas à cana-de-açúcar é de fundamental importância, pois além dessas comunidades desempenharem importante papel funcional na interação com a planta, os estudos realizados nas condições tropicais são limitados. Comunidades de fungos e bactérias associadas à cana-de-açúcar geneticamente modificada IMI-1 e sua isolinha convencional SP80-1842 foram sistematicamente isoladas de plantas cultivadas em área experimental em Piracicaba, SP, Brasil. Por meio de isolamento e PCR-denaturing gradient gel electrophoresis (PCR-DGGE) foi verificado que a transgenia não afeta a diversidade da comunidade fúngica associada à cana-deaçúcar. A diversidade dessas comunidades foi descrita e caracterizada molecularmente. O fungo Fusarium moniliforme apresentou alta freqüência de isolamento e também foi observado que o gene da endopoligalacturonase, pgIII, desempenha um importante papel no tipo de associação, endofítica ou patogênica, do F. moniliforme e a planta. O complexo Burkholderia cepacia constitui uma importante fração da comunidade de bactérias associada à cana-de-açúcar no Brasil e isolados deste complexo são capazes de inibir o crescimento do patógeno F. moniliforme. Análises filogenéticas indicaram que os isolados de bactérias endofíticas de Burkholderia são proximamente relacionados com linhagens-tipo do complexo B. cepacia isoladas de pacientes de fibrose cística. / In Brazil, the sugarcane is one of the most important cultivated crops. The sugarcane has received increased interest in the last years because of increase of the cultivated area and ethanol production to be used as biofuel. Considering its economical importance and the possibility of the use of the genetically modified plants; this crop has become the aim of current research for productivity and sustainability. In this context, the work on microbial communities associated with sugarcane is remarkable, because both, these communities play important functional role in the interaction with the plant, and studies performed in tropical conditions are limited as well. Fungal and bacterial communities associated with genetically modified sugarcane IMI-1 and its conventional isoline SP80-1842 were systematically isolated from plants cultivated in an experimental area in Piracicaba, SP, Brazil. The fungal communities associated with sugarcane were accessed by means of cultivation approach and PCR-denaturing gradient gel electrophoresis; the results revealed that these communities are not affected by transgeny. The microbial communities\' diversity was characterized and identified by using molecular tools. The fungus Fusarium moniliforme showed high frequency in association with the plant and it was observed that the endopolygalacturonase gene, pgIII, plays important role in order to determine the sort of association, either endophytic or pathogenic, between F. moniliforme and the host. The Burkholderia cepacia complex is an integral part of the endophytic bacterial community of sugarcane in Brazil and isolates of this complex are able to control F. moniliforme growth. Phylogenetic analyses indicated that the endophytic Burkholderia are closely related to clinical isolates of the B. cepacia complex isolated from cystic fibrosis patients. Bactérias Burkholderia cepacia complex. Cana-de-açúcar Fungos Fusarium moniliforme Microbial communities Microrganismos endofíticos Organismos geneticamente modificados. Sugarcane
36	Diversidade e caracterização genética de comunidades microbianas endofíticas associadas à cana-de-açúcar / Diversity and genetic characterization of endophytic microbial communities associated with sugarcane Rodrigo Mendes 03 March 2008 (has links) A cana-de-açúcar é uma das principais culturas do Brasil e nos últimos anos está recebendo especial atenção devido ao crescente aumento da área cultivada e produção de etanol para uso como biocombustível. Considerando-se sua importância econômica e a possibilidade do uso de plantas geneticamente modificadas, essa cultura tem se tornado foco de pesquisas relacionadas à produtividade e sustentabilidade. Neste contexto, o estudo de comunidades microbianas associadas à cana-de-açúcar é de fundamental importância, pois além dessas comunidades desempenharem importante papel funcional na interação com a planta, os estudos realizados nas condições tropicais são limitados. Comunidades de fungos e bactérias associadas à cana-de-açúcar geneticamente modificada IMI-1 e sua isolinha convencional SP80-1842 foram sistematicamente isoladas de plantas cultivadas em área experimental em Piracicaba, SP, Brasil. Por meio de isolamento e PCR-denaturing gradient gel electrophoresis (PCR-DGGE) foi verificado que a transgenia não afeta a diversidade da comunidade fúngica associada à cana-deaçúcar. A diversidade dessas comunidades foi descrita e caracterizada molecularmente. O fungo Fusarium moniliforme apresentou alta freqüência de isolamento e também foi observado que o gene da endopoligalacturonase, pgIII, desempenha um importante papel no tipo de associação, endofítica ou patogênica, do F. moniliforme e a planta. O complexo Burkholderia cepacia constitui uma importante fração da comunidade de bactérias associada à cana-de-açúcar no Brasil e isolados deste complexo são capazes de inibir o crescimento do patógeno F. moniliforme. Análises filogenéticas indicaram que os isolados de bactérias endofíticas de Burkholderia são proximamente relacionados com linhagens-tipo do complexo B. cepacia isoladas de pacientes de fibrose cística. / In Brazil, the sugarcane is one of the most important cultivated crops. The sugarcane has received increased interest in the last years because of increase of the cultivated area and ethanol production to be used as biofuel. Considering its economical importance and the possibility of the use of the genetically modified plants; this crop has become the aim of current research for productivity and sustainability. In this context, the work on microbial communities associated with sugarcane is remarkable, because both, these communities play important functional role in the interaction with the plant, and studies performed in tropical conditions are limited as well. Fungal and bacterial communities associated with genetically modified sugarcane IMI-1 and its conventional isoline SP80-1842 were systematically isolated from plants cultivated in an experimental area in Piracicaba, SP, Brazil. The fungal communities associated with sugarcane were accessed by means of cultivation approach and PCR-denaturing gradient gel electrophoresis; the results revealed that these communities are not affected by transgeny. The microbial communities\' diversity was characterized and identified by using molecular tools. The fungus Fusarium moniliforme showed high frequency in association with the plant and it was observed that the endopolygalacturonase gene, pgIII, plays important role in order to determine the sort of association, either endophytic or pathogenic, between F. moniliforme and the host. The Burkholderia cepacia complex is an integral part of the endophytic bacterial community of sugarcane in Brazil and isolates of this complex are able to control F. moniliforme growth. Phylogenetic analyses indicated that the endophytic Burkholderia are closely related to clinical isolates of the B. cepacia complex isolated from cystic fibrosis patients. Bactérias Cana-de-açúcar Fungos Microrganismos endofíticos Organismos geneticamente modificados. Burkholderia cepacia complex. Fusarium moniliforme Microbial communities Sugarcane
37	Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis Frangolias, Despina Daisy 05 1900 (has links) Cystic fibrosis (CF) is a single gene Mendelian disorder characterized by pulmonary disease and pancreatic insufficiency. Pulmonary disease is the major cause of death in CF patients. Although some cystic fibrosis transmembrane conductance regulator (CFTR) genotypes are associated with less severe disease, patients possessing the same genotype show great variation in pulmonary disease severity and progression. Genes involved in modulating the inflammatory response and genes increasing susceptibility to infection are proposed as modifiers of pulmonary disease severity. Polymorphisms selected for based on evidence that they affect the function of the gene and prevalence of the putative risk allele: 1) antiprotease gene alpha-1-antitrypsin (alpha-1-AT), 2) innate immunity genes: mannose binding lectin (MBL2) (promoter [G→C] at -221 and codon 52 (Arg52Cys, D allele), 54 (Gly54Asp, B allele), and 57 (Gly57Glu, C allele), and pulmonary surfactant genes SPA-1 (Arg219Trp), SPA-2 (Thr9Asn, Lys223Gln) and SPD (Thr11Met), 3) antioxidant genes GSTM1 and T1 (gene deletion polymorphisms), GSTP1 (Ile105Val) and GCLC repeats, 4) mucin genes (MUC2 and MUC5B). Pulmonary disease progression and survival in patients with chronic Burkholderia cepacia complex (BCC) infection were also investigated controlling for genomovar and RAPD type of the organism. BCC infection was associated with more severe pulmonary disease progression and worse survival. Alpha-1-AT genotype was not a major contributor to variability of pulmonary disease severity, but the results suggest that alpha-1-AT plasma levels during pulmonary infections may be affected by poor nutritional status. We showed similar pulmonary disease progression and MBL2 genotype. Contrary to the previous literature, wild-type MBL2 genotype was associated with steeper decline in pulmonary disease over time following chronic infection with BCC, but genotype was not associated with increased susceptibility to BCC infection. We showed inconsistant results for the pulmonary surfactant gene polymorphisms, GSTM1, T1 and GSTP1 polymorphisms, and number of repeats for GCLC and MUC5B depending on the phenotype investigated. We conclude that some of the variability in pulmonary disease severity and progression in CF is explained by polymorphisms in secondary genes. Modifier genes Cystic fibrosis Burkholderia cepacia complex Pulmonary disease Mannose binding lectin gene Surfactant protein A1 Surfactant protein A2 Genetic study
38	Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis Frangolias, Despina Daisy 05 1900 (has links) Cystic fibrosis (CF) is a single gene Mendelian disorder characterized by pulmonary disease and pancreatic insufficiency. Pulmonary disease is the major cause of death in CF patients. Although some cystic fibrosis transmembrane conductance regulator (CFTR) genotypes are associated with less severe disease, patients possessing the same genotype show great variation in pulmonary disease severity and progression. Genes involved in modulating the inflammatory response and genes increasing susceptibility to infection are proposed as modifiers of pulmonary disease severity. Polymorphisms selected for based on evidence that they affect the function of the gene and prevalence of the putative risk allele: 1) antiprotease gene alpha-1-antitrypsin (alpha-1-AT), 2) innate immunity genes: mannose binding lectin (MBL2) (promoter [G→C] at -221 and codon 52 (Arg52Cys, D allele), 54 (Gly54Asp, B allele), and 57 (Gly57Glu, C allele), and pulmonary surfactant genes SPA-1 (Arg219Trp), SPA-2 (Thr9Asn, Lys223Gln) and SPD (Thr11Met), 3) antioxidant genes GSTM1 and T1 (gene deletion polymorphisms), GSTP1 (Ile105Val) and GCLC repeats, 4) mucin genes (MUC2 and MUC5B). Pulmonary disease progression and survival in patients with chronic Burkholderia cepacia complex (BCC) infection were also investigated controlling for genomovar and RAPD type of the organism. BCC infection was associated with more severe pulmonary disease progression and worse survival. Alpha-1-AT genotype was not a major contributor to variability of pulmonary disease severity, but the results suggest that alpha-1-AT plasma levels during pulmonary infections may be affected by poor nutritional status. We showed similar pulmonary disease progression and MBL2 genotype. Contrary to the previous literature, wild-type MBL2 genotype was associated with steeper decline in pulmonary disease over time following chronic infection with BCC, but genotype was not associated with increased susceptibility to BCC infection. We showed inconsistant results for the pulmonary surfactant gene polymorphisms, GSTM1, T1 and GSTP1 polymorphisms, and number of repeats for GCLC and MUC5B depending on the phenotype investigated. We conclude that some of the variability in pulmonary disease severity and progression in CF is explained by polymorphisms in secondary genes. Modifier genes Cystic fibrosis Burkholderia cepacia complex Pulmonary disease Mannose binding lectin gene Surfactant protein A1 Surfactant protein A2 Genetic study
39	Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis Frangolias, Despina Daisy 05 1900 (has links) Cystic fibrosis (CF) is a single gene Mendelian disorder characterized by pulmonary disease and pancreatic insufficiency. Pulmonary disease is the major cause of death in CF patients. Although some cystic fibrosis transmembrane conductance regulator (CFTR) genotypes are associated with less severe disease, patients possessing the same genotype show great variation in pulmonary disease severity and progression. Genes involved in modulating the inflammatory response and genes increasing susceptibility to infection are proposed as modifiers of pulmonary disease severity. Polymorphisms selected for based on evidence that they affect the function of the gene and prevalence of the putative risk allele: 1) antiprotease gene alpha-1-antitrypsin (alpha-1-AT), 2) innate immunity genes: mannose binding lectin (MBL2) (promoter [G→C] at -221 and codon 52 (Arg52Cys, D allele), 54 (Gly54Asp, B allele), and 57 (Gly57Glu, C allele), and pulmonary surfactant genes SPA-1 (Arg219Trp), SPA-2 (Thr9Asn, Lys223Gln) and SPD (Thr11Met), 3) antioxidant genes GSTM1 and T1 (gene deletion polymorphisms), GSTP1 (Ile105Val) and GCLC repeats, 4) mucin genes (MUC2 and MUC5B). Pulmonary disease progression and survival in patients with chronic Burkholderia cepacia complex (BCC) infection were also investigated controlling for genomovar and RAPD type of the organism. BCC infection was associated with more severe pulmonary disease progression and worse survival. Alpha-1-AT genotype was not a major contributor to variability of pulmonary disease severity, but the results suggest that alpha-1-AT plasma levels during pulmonary infections may be affected by poor nutritional status. We showed similar pulmonary disease progression and MBL2 genotype. Contrary to the previous literature, wild-type MBL2 genotype was associated with steeper decline in pulmonary disease over time following chronic infection with BCC, but genotype was not associated with increased susceptibility to BCC infection. We showed inconsistant results for the pulmonary surfactant gene polymorphisms, GSTM1, T1 and GSTP1 polymorphisms, and number of repeats for GCLC and MUC5B depending on the phenotype investigated. We conclude that some of the variability in pulmonary disease severity and progression in CF is explained by polymorphisms in secondary genes. / Medicine, Faculty of / Medicine, Department of / Experimental Medicine, Division of / Graduate Modifier genes Cystic fibrosis Burkholderia cepacia complex Pulmonary disease Mannose binding lectin gene Surfactant protein A1 Surfactant protein A2 Genetic study
40	Využití Ramanovy spektroskopie a Ramanovské pinzety k analýze a isolaci PHA produkujících bakterií / Utilization of Raman spectroscopy and Raman tweezers for analysis and isolation of PHA producing bacteria Beránková, Barbora January 2019 (has links) This diploma thesis deals with the study of the utilization of Raman spectroscopy and Raman tweezers for analysis and isolation of polyhydroxyalkanoates (PHA) producing bacteria. Using gas chromatography with FID detection, we determined the polyhydroxybutyrate (P(3HB)) content of the PHA biomass of bacterial strains Burkholderia cepacia, Halomonas halophila, Cupriavidus necator H16 and its mutant strain Cupriavidus necator H16/PHB-4 and Lactobacillus delbrueckii, which is not a producer of polyhydroxyalkanoates but this bactrea was selected as representative of Gram-positive bacteria. Subsequently, thanks to Raman microspectroscopy, Raman tweezers and FT-IR spectrometer in combination with Raman FT-module, we were able to confirm or disprove the presence of P(3HB) in bacteria. Furthermore, the thesis describes Cupriavidus necator H16, which is a model organism for the production of P(3HB), and his mutant strain Cupriavidus necator H16/PHB-4. The bacterial strain Cupriavidus necator H16 was cultivated in a production mineral medium of various nitrogen contents, while cultivation was also carried out in liquid Nutrient Broth. By this cultivation we were able to reach various P(3HB) content in bacterial biomass, the spectra were subsequently compared with the spectrum of the bacterial strain Cupriavidus necator H16/PHB-4. Raman spectroscopy is well used to characterize the composition of individual bacterial cells, is a fast, versatile, and virtually non-invasive tool for studying cells.

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