Kompletizace genomu Burkholderia cenocepacia ST32 a identifikace prognostického markeru infekce způsobené kmenem ST32 u pacientů s cystickou fibrózou / Finalizing the full genome sequence of epidemic strain Burkholderia cenocepacia ST32 and identification of a prognostic marker for infections that are caused by the ST32 strain in patients with cystic fibrosis

Vavrová, Jolana

January 2015

Burkholderia cenocepcia is one of the serious infectious agents of respiratory tract among cystic fibrosis patients. There are problems mainly with strains which are capable of epidemic spread. The known epidemic in the Czech Republic was caused by ST32 strain in the past. In this work, there was completed whole genome sequence of referential isolate 1232 of B. cenocepacia ST32 in cooperation with bioinformatics by new generation sequencing techniques and by determining the problematic areas by a combination of Sanger sequencing bioinformatics approaches and manual assembling of sequence reads localized in these areas. The final version of the genome sequence was annotated by PGAAP and at the present time it is finalized. Second part of this work is dedicated to looking for a prognostic marker of infection caused by ST32 strain in patients with cystic fibrosis. We analysed the results of ST32 trancriptomic experiment and chose genes possibly connected with the cepacia syndrome - serious, mostly fatal state of infection. By quantitative PCR we compared their expression in isolates from 4 patients from time of cepacia syndrome and month before that. We checked the possibility of direct detection of the expression of these genes in clinical material. We identified genes for type III secretion system as...

Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis

Frangolias, Despina Daisy

05 1900

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

Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis

Frangolias, Despina Daisy

05 1900

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

Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis

Frangolias, Despina Daisy

05 1900

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

Identifying Gene Regions That Produce Antagonistic Factors Against Multidrug Resistant Pathogens

Crowl, Rachel A.

15 September 2021

No description available.

Biology

Microbiology

Molecular Biology

Cystic Fibrosis

multidrug resistant

antibiotic resistant

environmental Pseudomonas

Pseudomonas aeruginosa

Burkholderia

biosynthetic gene clusters

antibiotic discovery

transposon mutagenesis

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

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.

Tackling Drug Resistance of Cystic Fibrosis Pathogens Through Stress Response Mediated Antagonistic Activities of Induced Burkholderia and Pseudomonas Strains

Ghebretinsae, Kudus Teaghes

January 2021

No description available.

Biology

Microbiology

Molecular Biology

Health

Bacteriocin

Tailocin

Cystic Fibrosis

Drug resistance

Burkholderia cepacia complex

Pseudomonas aeruginosa

Identification Of Genes Involved In The Production Of Novel Antimicrobial Products Capable Of Inhibiting Multi-Drug Resistant Pathogens

Harris, Ryan A.

12 August 2019

No description available.

Biology

Microbiology

Antibiotic resistance

Pseudomonas

Pseudomonas aeruginosa

Antibiotics

Transposon mutagenesis

Arbitrary PCR

Antibiotic discovery

Novel antibiotics

Cystic fibrosis

multi-drug resistance

Biosynthetic gene clusters

Burkholderia

Altération bactérienne des minéraux dans les écosystèmes forestiers pauvres en nutriments : Analyse des communautés bactériennes et identification des mécanismes impliqués / Mineral weathering bacterial communities in nutrient-poor forest soil : anlaysis of the bacterial communities and genes involved

Lepleux, Cendrella

03 December 2012

Dans les écosystèmes forestiers pauvres en nutriments, les minéraux du sol constituent la principale source de nutriments inorganiques nécessaires à leur bon fonctionnement. Néanmoins ces nutriments ne sont pas directement accessibles aux racines des arbres. C'est l'action conjointe de facteurs abiotiques, comme le pH ou la circulation de l'eau, et biotiques comme les racines ou les microorganismes du sol dont les bactéries, qui vont conduire à l'altération de ces minéraux. A ce jour, nos connaissances sur les communautés bactériennes impliquées dans le processus d'altération et leur distribution dans des sols forestiers restent limitées, notamment à des habitats tels que la rhizosphère et la mycorhizosphère. Les objectifs de cette thèse étaient de caractériser les communautés bactériennes colonisant les minéraux du sol et leur aptitude à altérer les minéraux et enfin d'identifier les gènes bactériens impliqués. La combinaison d'approches cultivable, non cultivable et de biogéochimie sur des minéraux enterrés pendant 4 ans dans un sol forestier, a démontré que leur surface était colonisée par des communautés bactériennes spécifiques, capables d'altérer les minéraux et présentant des capacités métaboliques limitées, suggérant que ce support pourrait être considéré comme un habitat : la minéralosphère. La relation minéral/bactéries a été testée in situ via un amendement minéral sur une plantation et a mis en évidence l'impact de la disponibilité en nutriments sur la structuration des communautés bactériennes capables d'altérer les minéraux. L'étude génétique réalisée sur la souche modèle PML1(12) a révélé l'implication de plusieurs mécanismes dans la fonction altération / In nutrient-poor forest ecosystems, minerals are the main source of inorganic nutrients for the long lasting functioning of the forests. However, these nutrients are not directly accessible to the tree roots. It is the joined action of abiotic factors, such as pH and water circulation, and biotic factors such as tree roots and soil microorganisms, and notably bacteria, which leads to the solubilisation of these minerals. To date, our knowledge of the bacterial communities involved in the mineral weathering process and their distribution in forest soils is very limited and remains restricted to habitats such as the rhizosphere and mycorrhizosphere. The goals of this PhD thesis were to characterise the mineral associated bacterial communities, their ability to weather minerals and finally to identify the bacterial genes involved in the mineral weathering process. The combination of geochemical, cultivation-dependent and -independent approaches applied on minerals grounded in a forest soil during 4 years, revealed that the mineral associated bacterial communities were specific, able to weather minerals and had restricted metabolic abilities. These results suggest that minerals could be considered as a true ecological habitat: the mineralosphere. The mineral/bacteria relationship was tested in situ through a mineral amendment applied on a small-scale plantation, which has highlighted that the nutrient availability impacted the functional structure of the mineral weathering bacterial communities. At least, random mutagenesis applied on a model mineral weathering bacterial strain revealed that its mineral weathering ability resulted from several molecular mechanisms

Altération (géologie)

Géochimie (environnement)

Bactéries

Écosystèmes forestiers

Cycle des éléments minéraux

Génie génétique

Bêta-proteobacteria

Burkholderia

Minéralosphère

Métagénomique

Approche fonctionnelle

Biodisponibilité des nutriments

Weathering (geology)

Geochemistry (environment)

Bacteria

Forest ecosystem

Inorganic nutrients cycle

Genetics

Beta-proteobacteria

Burkholderia

Mineralosphere

Metagenomics

Functional approach

Nutrient bioavailability

577.3

551.9

Estudo de associa??o entre bact?rias fixadoras de nitrog?nio e fungos micorr?zicos arbusculares associados a leguminosas do grupo das piptadenias / Study of association between nitrogen-fixing bacteria and arbuscular mycorrhizal fungi associated with legumes from the piptadenias group

Oliveira Junior, Joel Quintino de

28 February 2014

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-01-09T10:11:25Z No. of bitstreams: 1 2014 - Joel Quintino de Oliveira Junior.pdf: 986333 bytes, checksum: 680ec4322bce52cb9979155c6978ea36 (MD5) / Made available in DSpace on 2017-01-09T10:11:25Z (GMT). No. of bitstreams: 1 2014 - Joel Quintino de Oliveira Junior.pdf: 986333 bytes, checksum: 680ec4322bce52cb9979155c6978ea36 (MD5) Previous issue date: 2014-02-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Leguminosae comprises a wide variety of species that form symbiosis with mycorrhizal fungi (AMF), and mostly with nitrogen fixing bacteria. Within this frame fits the group Pitadenia encompassing genres: Mimosa , Piptadenia , Parapiptadenia , Anadenathera , Pseudopiptadenia , Microlobius , Stryphnodendron and Adenopia , comprising over 500 species, of which most are found in the New World , especially in Brazil . Their habits vary from tree and herbaceous species to thrive in flooded, dry, high altitude grasslands , savanna ecosystems among other areas . Are well known and used in the rehabilitation of degraded soils by their aggressiveness and ability to grow under adverse soil conditions. Results indicate that in some species of this group only nodulated with the presence of mycorrhizal fungi. Legumes use for the realization of these two symbioses very similar molecular mechanisms and some of leguminous species from the subfamily Mimosoideae show atypical and high potential exploration of evolutionary symbiosis between the two skills. The objective of this work is to investigate and confirm this dependence of the presence of arbuscular mycorrhizal fungi for nodulation and nitrogen fixation in species group Piptadenia nodulated by Burkholderia sp . under controlled conditions / A fam?lia Leguminosae compreende um imensa variedade de esp?cies que formam simbiose com fungos micorr?zicos arbusculares (FMAs) e, em sua grande maioria, com bact?rias fixadoras de nitrog?nio. Dentro desse quadro se encaixa o grupo de Pitadenia que engloba os g?neros: Mimosa, Piptadenia, Parapiptadenia, Anadenathera, Pseudopiptadenia, Microlobius, Stryphnodendron e Adenopia, compreendendo mais de 500 esp?cies, sendo que a maioria delas ? encontrada no novo mundo, em especial no Brasil. Seus h?bitos variam desde esp?cies herb?ceas at? arb?reas e se desenvolvem em ?reas alagadas, secas, campos de altitude, cerrado entre outros ecossistemas. S?o bem conhecidas e utilizadas na reabilita??o de solos degradados por sua agressividade e capacidade de se desenvolver nas mais adversas condi??es ed?ficas. Resultados indicam que em algumas esp?cies desse grupo s? nodulariam com a presen?a de fungos micorr?zicos. As leguminosas usam para a realiza??o dessas duas simbioses mecanismos moleculares muito similares e algumas dessas esp?cies de leguminosas nativas da subfam?lia Mimosoideae mostram habilidades at?picas e com alto potencial de explora??o evolucion?ria entre as duas simbioses. O objetivo deste trabalho ? investigar e confirmar essa depend?ncia da presen?a de fungos micorr?zicos arbusculares para a nodula??o e fixa??o biol?gica de nitrog?nio em esp?cies do grupo de Piptadenia noduladas por Burkholderia sp. sob condi??es controladas

Mycorrhizal dependency

nodulation

Burkholderia

Depend?ncia micorr?zica

nodula??o

fixa??o biol?gica de nitrog?nio

fungos micorr?zicos arbusculares

biological nitrogen fixation

mycorrhizal fungi

Ci?ncias Agr?rias