Construção e análise de modelos topológicos de redes biológicas usando a ontologia MONET

Silva, João Paulo Müller da

06 March 2006

Made available in DSpace on 2015-03-05T13:56:59Z (GMT). No. of bitstreams: 0 Previous issue date: 6 / Hewlett-Packard Brasil Ltda / Um dos mais importantes desafios para a biologia pós-genômica é atender a estrutura e o comportamento das interações moleculares complexas que controlam o comportamento celular. Para tanto é essencial à integração dos dados biológicos referentes a estas interações armazenadas em diversos banco de dados. Este é um problema difícil, pois estes dados estão disponíveis em banco de dados públicos espalhados geograficamente na rede mundial de computadores e cada um destes possui um sistema diferente de gerenciamento, formato ou visão de como representar os dados. Os principais problemas para a realização desta tarefa são:a necessidade de se desenvolver e aplicar parsers para cada banco de dados sem ausência de um vocabulário unificado. Como uma alternativa para facilitar estes problemas, este trabalho propõe a ontologia MONET (Molecular Network Ontology) que tem como objetivo ser um modelo integrado para a rede de redes que existe dentro da celula. Tal visão integrada ajuda a entender as interações de larga escala / One of the most important challenges for biology in the post-genomic is to understand the structure and behavior of the molecular interactions that controls cell behavior. Therefore is essential to integrate biological data concerning these interactions, which are stored in different databases. The integration task is dificult because these data are distributed in public databases on the world wide web and each database has diferent management systems, formats and views of how to represent biological data. The two main problems involved here are the dificulty in parsing the data when dealing with heterogeneous at file formats and the inconsistencies due to the absence of an united vocabulary. As an alternative to facilitate these problems this work proposes MONET (the Molecular Network) ontology, an integration model for the unifying of diferent molecular networks that exist inside the cell. Such integrated view facilitates the understanding of the large-scale interactions responsible for the behavior of

Ciências Exatas e da Terra

integração de dados

interação proteína-proteína

metabolismo

ontologias

regulação gênica

data integration

metabolic pathways

ontology

Caracterização molecular e funcional da imidazolona propionase de Trypanosoma cruzi: uma enzima do metabolismo de histidina. / Molecular and functional characterization of imidazolonepropionase from Trypanosoma cruzi: an enzyme of histidine metabolism.

Melo, Raíssa de Fátima Pimentel

08 December 2017

O Trypanosoma cruzi é capaz de matabolizar aminoácidos como fontes de carbono e energia, dentre eles, o aminoácido histidina (His). Canonicamente, a via de degradação de His compreende quatro passos enzimáticos que consistem na oxidação de His a glutamato (Glu). O Glu gerado é convertido em alfa-cetoglutarato (α-KG), que é incorporado ao ciclo de Krebs (TCA), gerando coenzimas reduzidas que irão fornecer elétrons para a cadeia transportadora de elétrons (CTE), produzindo ATP. Nesse trabalho foi possível demonstrar que o substrato da terceira enzima envolvida na degradação de His (imidazolona propionase-TcIP), chamado 4-imidazolona-5-propionato (IPA) é oxidado não enzimáticamente a α-KG, e este é capaz de ser metabolizado diretamente via TCA. Ainda foi possível demonstrar que essa enzima se encontra formando um complexo macromolecular com a segunda enzima da via (urocanato hidratase TcUH). Finalmente, obervou-se que o controle da expressão da TcIP é importante no processo de metaciclogênse de T. cruzi. / Trypanosoma cruzi is able to catabolize amino acids as carbon and energy sources, among them the amino acid histidine (His). Canonically, the His degradation pathway comprises four enzymatic steps consisting of the oxidation of His to glutamate (Glu). The Glu is converted to alpha ketoglutarate (α-KG), which is incorporated into the Krebs cycle (TCA), generating reduced coenzymes that will supply electrons to the electron transport chain (ETC), producing ATP. In this work it was possible to demonstrate that the substrate of the third enzyme involved in the His degradation (imidazolonepropionase - TcIP), called 4-imidazolone-5-propionate (IPA), is non-enzymatically oxidized to α-KG, which is able to be metabolized directly through TCA. It was possible to demonstrate that this enzyme is forming a macromolecular complex with the second enzyme (urocanate hydratase - TcUH). Finally, it was established that the control of TcIP expression is important in the metacyclogenesis process in T. cruzi.

Trypansosoma cruzi

Trypansosoma cruzi

Amino acids metabolism

Histidina

Histidine

Interação de proteínas

Metabolismo de aminoácidos

Non-enzymactic metabolic pathways

Proteins interaction

Reações metabólicas não enzimáticas

Optimization of Recombinant Protein Production by a Fungal Host

Gheshlaghi, Reza

January 2007

The natural ability of filamentous fungi to synthesize, glycosylate, and secrete high levels of protein products has made them potentially attractive hosts for heterologous protein production. Advances in fungal genetics enabled the expression of several high value proteins in filamentous fungi. Particularly the genus, Aspergillus has proven to be potentially useful for the expression of eukaryotic gene products. This thesis pertains to the optimization of recombinant protein production by the fungal host, Aspergillus niger. The target recombinant protein of interest is hen egg white lysozyme (HEWL). This protein encoded in the genome resulting in relatively stable gene construct; however, it is subject to extracellular protease attack. The objective of the proposed research is the development and application of engineering methodology for the analysis and optimization of a fungal bioprocess for recombinant protein production. The underlying hypothesis is that a significant improvement of target protein productivity is achievable by using appropriate optimization techniques. To accomplish this, during the first phase of this study a statistically based experimental method was used to systematically elucidate the effect of medium components (starch, peptone, ammonium sulfate, yeast extract, and CaCl₂.2H₂O) on hen egg white lysozyme production by Aspergillus niger HEWL WT-13-16. A 2⁵⁻¹ fractional factorial design augmented with center points revealed that peptone, starch, and ammonium sulfate were the most significant factors, whereas the other medium components were not important within the levels tested. Then, the method of steepest ascent was employed to approach the proximity of optimum. This task was followed by a central composite design to develop a response surface for medium optimization. The optimum medium composition for lysozyme production was found to be: starch 34 g/L, peptone 34 g/L, ammonium sulfate 11.9 g/L, yeast extract 0.5 g/L, and CaCl₂.2H₂O 0.5 g/L. This medium was projected to produce theoretically 212 mg/L lysozyme. Using this optimized medium, an experimentally observed maximum lysozyme concentration of 209±18 mg/L verified the applied methodology. A second optimization approach was based on metabolic flux analysis (MFA). A comprehensive metabolic network comprising three intracellular compartments (cytoplasm, mitochondrion and peroxisome) was developed for Aspergillus niger. The metabolic flux network included carbohydrate and amino acid metabolism in both anabolic and catabolic reactions. According to experimental observations, the time course of fermentation was divided into five phases, each with unique physiological properties. The network was used to form a set of linear algebraic equations based on the stoichiometry of the reactions by assuming pseudo-steady state for intracellular metabolites. The metabolic flux model consists of 137 metabolites and 287 processes, of which 181 represent biochemical conversions and 106 represent transport processes between the different compartments and the extracellular environment. In addition, due to the physiological evidence some biochemical reactions considered to be active only in one direction. Linear programming was used for optimizing of the specific growth rate as the objective function in combination with 37 measured input and output fluxes of the key metabolites to evaluate corresponding intracellular flux distributions throughout the batch fermentations. The general applicability of the methodology was evaluated by establishing commonality to optimize recombinant HEWL production. The proposed model was able to predict correctly the specific growth rate, oxygen uptake rate, and carbon dioxide evolution rate with good precision. The results of the metabolic flux and sensitivity analysis were employed for medium design. Growth was biphasic; glucose was utilized initially as the carbon source and was followed by its oxidation product, gluconate, later. Logarithmic sensitivity analysis revealed that the addition of proline, alanine and glutamate benefited growth in defined media. The experimental observations and flux analysis showed that tyrosine was a potential candidate for biomass production improvement. The two amino acids, namely proline and tyrosine benefited biomass production during the initial growth phases. Glutamate and alanine were particularly important during the latter stages of the batch process. A series of growth studies were conducted with the identified amino acids added in the medium. In these preliminary nutritional experiments the contribution to growth enhancement was 46% for proline, 23% for glutamate, and 22% for tyrosine. Model predictions were further verified by conducting batch and fed-batch fermentations in a 7- liter bioreactor. The programmed addition of four amino acids (proline, glutamate, alanine, and tyrosine) according to a predetermined schedule resulted in a 44% improvement in biomass and 41% improvement in recombinant protein production. The experiments also confirmed the model prediction that extra amount of amino acids besides the identified ones would not significantly enhance biomass and the recombinant protein production. A computer-based control system was developed for the on-line monitoring and control of the major state variables (e.g., temperature, pH, and DO) during the time course of fermentation. The graphical programming environment, LabVIEW was used to acquire and integrate these variables in a supervisor computer. The temperature of the bioreactor during sterilization and fermentation was controlled using a cascade methodology. The controller parameters of the master and slave loops were determined experimentally to yield a smooth response with minimum overshoot of both the bioreactor and jacket temperatures. The program scheduled various required steps in an established order during the fermentation. This feature of the software guarantees that every necessary operation will be met. The graphical representation of the process is displayed on the screen and helps the user to follow the process and perform the required adjustments. Furthermore, different variables can be observed simultaneously and saved in text or spreadsheet files for further analysis.

Aspergillus niger

hen egg white lysozyme

metabolic flux analysis

metabolic pathways

optimization

factorial design

response surface methodology

medium optimization

Chemical Engineering

Optimization of Recombinant Protein Production by a Fungal Host

Gheshlaghi, Reza

January 2007

The natural ability of filamentous fungi to synthesize, glycosylate, and secrete high levels of protein products has made them potentially attractive hosts for heterologous protein production. Advances in fungal genetics enabled the expression of several high value proteins in filamentous fungi. Particularly the genus, Aspergillus has proven to be potentially useful for the expression of eukaryotic gene products. This thesis pertains to the optimization of recombinant protein production by the fungal host, Aspergillus niger. The target recombinant protein of interest is hen egg white lysozyme (HEWL). This protein encoded in the genome resulting in relatively stable gene construct; however, it is subject to extracellular protease attack. The objective of the proposed research is the development and application of engineering methodology for the analysis and optimization of a fungal bioprocess for recombinant protein production. The underlying hypothesis is that a significant improvement of target protein productivity is achievable by using appropriate optimization techniques. To accomplish this, during the first phase of this study a statistically based experimental method was used to systematically elucidate the effect of medium components (starch, peptone, ammonium sulfate, yeast extract, and CaCl₂.2H₂O) on hen egg white lysozyme production by Aspergillus niger HEWL WT-13-16. A 2⁵⁻¹ fractional factorial design augmented with center points revealed that peptone, starch, and ammonium sulfate were the most significant factors, whereas the other medium components were not important within the levels tested. Then, the method of steepest ascent was employed to approach the proximity of optimum. This task was followed by a central composite design to develop a response surface for medium optimization. The optimum medium composition for lysozyme production was found to be: starch 34 g/L, peptone 34 g/L, ammonium sulfate 11.9 g/L, yeast extract 0.5 g/L, and CaCl₂.2H₂O 0.5 g/L. This medium was projected to produce theoretically 212 mg/L lysozyme. Using this optimized medium, an experimentally observed maximum lysozyme concentration of 209±18 mg/L verified the applied methodology. A second optimization approach was based on metabolic flux analysis (MFA). A comprehensive metabolic network comprising three intracellular compartments (cytoplasm, mitochondrion and peroxisome) was developed for Aspergillus niger. The metabolic flux network included carbohydrate and amino acid metabolism in both anabolic and catabolic reactions. According to experimental observations, the time course of fermentation was divided into five phases, each with unique physiological properties. The network was used to form a set of linear algebraic equations based on the stoichiometry of the reactions by assuming pseudo-steady state for intracellular metabolites. The metabolic flux model consists of 137 metabolites and 287 processes, of which 181 represent biochemical conversions and 106 represent transport processes between the different compartments and the extracellular environment. In addition, due to the physiological evidence some biochemical reactions considered to be active only in one direction. Linear programming was used for optimizing of the specific growth rate as the objective function in combination with 37 measured input and output fluxes of the key metabolites to evaluate corresponding intracellular flux distributions throughout the batch fermentations. The general applicability of the methodology was evaluated by establishing commonality to optimize recombinant HEWL production. The proposed model was able to predict correctly the specific growth rate, oxygen uptake rate, and carbon dioxide evolution rate with good precision. The results of the metabolic flux and sensitivity analysis were employed for medium design. Growth was biphasic; glucose was utilized initially as the carbon source and was followed by its oxidation product, gluconate, later. Logarithmic sensitivity analysis revealed that the addition of proline, alanine and glutamate benefited growth in defined media. The experimental observations and flux analysis showed that tyrosine was a potential candidate for biomass production improvement. The two amino acids, namely proline and tyrosine benefited biomass production during the initial growth phases. Glutamate and alanine were particularly important during the latter stages of the batch process. A series of growth studies were conducted with the identified amino acids added in the medium. In these preliminary nutritional experiments the contribution to growth enhancement was 46% for proline, 23% for glutamate, and 22% for tyrosine. Model predictions were further verified by conducting batch and fed-batch fermentations in a 7- liter bioreactor. The programmed addition of four amino acids (proline, glutamate, alanine, and tyrosine) according to a predetermined schedule resulted in a 44% improvement in biomass and 41% improvement in recombinant protein production. The experiments also confirmed the model prediction that extra amount of amino acids besides the identified ones would not significantly enhance biomass and the recombinant protein production. A computer-based control system was developed for the on-line monitoring and control of the major state variables (e.g., temperature, pH, and DO) during the time course of fermentation. The graphical programming environment, LabVIEW was used to acquire and integrate these variables in a supervisor computer. The temperature of the bioreactor during sterilization and fermentation was controlled using a cascade methodology. The controller parameters of the master and slave loops were determined experimentally to yield a smooth response with minimum overshoot of both the bioreactor and jacket temperatures. The program scheduled various required steps in an established order during the fermentation. This feature of the software guarantees that every necessary operation will be met. The graphical representation of the process is displayed on the screen and helps the user to follow the process and perform the required adjustments. Furthermore, different variables can be observed simultaneously and saved in text or spreadsheet files for further analysis.

Aspergillus niger

hen egg white lysozyme

metabolic flux analysis

metabolic pathways

optimization

factorial design

response surface methodology

medium optimization

Chemical Engineering

Bioinformatic study of the metabolic dialog between a non-pathogenic trypanosomatid and its endosymbiont with evolutionary and functional goals

Coimbra Klein, Cecilia

12 November 2013

In this thesis, we presented three main types of analyses of metabolism, most of which involved symbiosis: metabolic dialogue between a trypanosomatid and its symbiont, comparative analyses of metabolic networks and exploration of metabolomics data. All of them were essentially based on genomics data where metabolic capabilities were predicted from the annotated genes of the target organism, and were further refined with other types of data depending on the aim and scope of each investigation. The metabolic dialogue between a trypanosomatid and its symbiont was explored with functional and evolutionary goals which included analysing the classically defined pathways for the synthesis of essential amino acids and vitamins, exploring the genome-scale metabolic networks and searching for potential horizontal gene transfers from bacteria to the trypanosomatids. The comparative analyses performed focused on the common metabolic capabilities of different lifestyle groups of bacteria and we proposed a method to automatically establish the common and the group-specific activities. The application of our method on metabolic stories enumeration to the yeast response to cadmium exposure was a validation of this approach on a well-studied biological response to stress. We showed that the method captured well the underlying knowledge as it extracted stories allowing for further interpretations of the metabolomics data mapped into the genome-scale metabolic model of yeast

Symbiosis

Metabolic pathways

Metabolic networks

Mutualistic associations

Trypanosomatids

Protéine kinase AMP cyclique dépendante et cycle de Plasmodium falciparum / CAMP-dependent protein kinase and plasmodium falciparum life cycle

Wurtz, Nathalie

12 July 2010

L'aggravation actuelle du risque lié au paludisme résulte du développement du phénomène de résistance de souches de Plasmodium falciparum aux molécules antipaludiques. Une telle situation et l’absence de vaccin efficace nécessitent le développement de nouvelles stratégies antiparasitaires. Jusqu’à présent, les mécanismes moléculaires qui contrôlent le cycle parasitaire sont méconnus. Chez la plupart des eucaryotes, les protéine kinases sont impliquées dans des fonctions cellulaires essentielleset constituent une cible privilégiée pour la conception de nouveaux médicaments. Dans cecadre, nous nous sommes intéressés à la voie de transduction de l’AMP cyclique et en particulier à la sous-unité catalytique de la protéine kinase AMPc dépendante (PfPKAc)dont le rôle essentiel reste mal défini chez P. falciparum. Deux approches complémentaires ont été choisies pour étudier cette kinase :1) au niveau biochimique par le clonage, l’expression, la purification et la caractérisation enzymatique de la PfPKAc. L’objectif était d’obtenir une enzyme active in vitro de façon à pourvoir mesurer les constantes enzymatiques de la PfPKAc et conduire les premiers essais d’inhibitions.2) au niveau cellulaire en analysant les conséquences de l’inhibition par des ARN interférents spécifiques des transcrits de la PfPKAc. Le développement parasitaire mais également le transcriptome global ont été étudiés de manière à préciser les voies métaboliques liées à cette kinase plasmodiale.L’ensemble de ces études précise la compréhension de la voie de transduction de l’AMP cyclique et de la PfPKA qui pourrait conduire au développement de nouvelles voies thérapeutiques. / Nowadays, the increase of risks associated with malaria results from the development of resistance of Plasmodium falciparum strains to antimalarial drugs. This situation and the lack of an effective vaccine require the development of new antimalarial strategies. Untilnow, molecular mechanisms controlling the life cycle of malaria parasites, are still poorly understood. In most eukaryotes, protein kinases are implicated in essential cellular functions and represent attractive targets for the development of new drugs. In this context, we focused on the signaling pathway implicating cAMP and particularly the catalytic subunit of cAMP-dependent protein kinase (PfPKAc), whose function is still unclear in P. falciparum. Two complementary strategies were chosen to study this kinase:1) at the biochemical level by the cloning, expression, purification and enzymatic characterization of the PfPKAc. The objective was to obtain an in vitro active PfPKAc to evaluate the kinetic constants of PfPKAc and to conduct the first inhibition studies.2) at the cellular level by studying the consequences of PfPKAc transcripts inhibition byspecific interfering RNAs. The parasite growth but also the overall transcriptome werestudied to specify the metabolic pathways associated with this plasmodial protein kinase.All of these studies improve the understanding of cAMP transduction pathway and PfPKA,which could allow the development of new therapeutic approaches.

Plasmodium falciparum

Protéines kinases

Pka

Caractérisation biochimique

ARN Interférence

Puces à ADN

Voies métaboliques

Plasmodium falciparum

Protein kinases

Pka

Biochimical characterization

Rna interference

Microarray

Metabolic pathways

Amélioration des outils géochimiques pour l'investigation des paléoenvironnements / Improvements of geochemical tools for palaeoenvironment investigations

Fourel, François

23 October 2014

L'histoire des isotopes stables débute en 1913 avec les travaux de Frederick Soddy. Dès lors les techniques analytiques dans ce domaine vont constamment évoluer permettant de répondre à des questions scientifiques de plus en plus élaborées et d'investir petit à petit de plus en plus de domaines où leur capacité de traceur devient aujourd'hui indispensable. Ce travail présente d'abord une partie décrivant l'évolution des techniques de mesures des rapports isotopiques au cours des décennies, insistant sur l'apport fondamental du flux continu et en particulier de l'analyse élémentaire. Dans la deuxième partie nous allons illustrer l'importance des analyses isotopiques dans le domaine des reconstructions paléoenvironnementales afin de mieux appréhender l'histoire climatique de la Terre et de ses habitants à diverses époques. Ceci principalement au moyen des analyses 180/160 sur des matrices phosphatées ou carbonatées. La troisième partie est consacrée à l'utilisation des isotopes stables comme traceurs de certaines réaction métaboliques fondamentales sur des échantillons fossiles mais également sur du matériel actuel. Dans ce dernier cas, nous nous sommes également servis de la capacité des isotopes stables à être utilisés comme traceurs en abondance naturelle mais également en utilisant le marquage isotopique. Pour ce faire nous avons utilisé les signatures isotopiques 180/160 sur du matériel phosphaté mais également les rapports isotopiques 13C/12C et 15N/14N de la matière organique. La quatrième partie est consacrée plus particulièrement à des travaux de développement analytiques dans divers domaines. Tout d'abord nous nous sommes intéressés aux analyses isotopiques D/H et 180/160 des eaux. Nous proposons de nouveaux paramètres de correction des analyses isotopiques sur des eaux de salinités supérieures à l'eau de mer. Puis nous avons travaillé sur les analyses isotopiques 13C/12C et 180/160 des carbonates en proposant de nouveaux paramètres pour le fractionnement isotopique de l'oxygène entre les carbonates d'apatites et l'eau, les fractionnements isotopiques du carbone et de l'oxygène entre aragonite et calcite sur des organismes vivants actuels. Nous avons également développé une technique semi-automatique pour déterminer les signatures isotopiques en carbone et en oxygène de la calcite et de la dolomite dans des mélanges de proportions variables. Enfin nous avons tenté de quantifier la variabilité naturelle et la variabilité instrumentale des analyses isotopiques du carbone et de l'oxygène sur des microfossiles. Puis, nous nous sommes intéressés à un domaine représentant une part importante de notre travail analytique sur les analyses isotopiques 180/160 des phosphates biogéniques. En collaboration avec les fabricants d'instruments nous avons développé un nouveau système afin d'améliorer la qualité des analyses, de les automatiser le plus possible et de réduire la taille de la prise d'essai dans le but d'accéder à des échantillons de taille plus réduite. Enfin nous avons développé les analyses isotopiques du soufre toujours en collaboration avec les fabricants d'instrumentation, d'une part pour évaluer la capacité d'un nouveau système analytique à produire des analyses fiables sur des quantités limitées au sein de matrices complexes, et d'autre part, la capacité du même système à produire des analyses multi-isotopiques fiables sur les trois éléments N, C, S. Dans la conclusion de ce travail, nous revenons sur la contribution de nos divers travaux à l'évolution des techniques isotopiques en essayant d'évaluer dans l'avenir les nouveaux champs d'investigation de ces techniques tout juste centenaires / The history of stable isotopes began in 1913 with the work of Frederick Soddy. Since then, analytical techniques in that domain have been in constant evolution, providing answers to more and more elaborated scientific questions and spreading into various application fields where their tracing abilities have become extremely useful today. This work first describes the evolution of those analytical techniques through time and especially the fundamental step forward with continuous flow techniques especially through elemental analysis. For the second part we illustrate the importance of stable isotope analyses for paleoenvironmental reconstructions to better understand the climatic history of the Earth and its inhabitants from different periods. This is mainly based on 180/160 analyses from phosphatic or carbonaceous matrices. The third part is dedicated to the use of stable isotopes as tracers of various fundamental metabolic pathways from both fossil and actual samples. For this latter case we have used the capacity of stable isotopes to be used at natural abundance as well as artificially labelled. We have used 180/160 isotopic signatures from phosphatic samples as well as 13C/12C and 15N/14N from organic matter. The fourth part is dedicated to analytical developments covering several domains. First we investigated D/H and 180/160 measurements from waters. We are proposing new correction parameters for isotopic measurements from waters with salinity higher than sea water. Then we have dealt with 13C/12C and 180/160 isotopic analyses from carbonates and we suggest new parameters to constrain oxygen isotopic fractionation between carbonates from apatite and water as well as carbon and oxygen isotopic fractionation between calcite and aragonite from actual living organisms. We have also developed a new semi-automated technique to measure carbon and oxygen isotopic signatures from calcite and dolomite mixtures with various proportions. Then we have attempted to quantify the natural and instrumental variability of oxygen and carbon isotopic analyses from microfossils. An important part of this analytical work has been dedicated to 180/160 isotopic analyses from biogenic phosphate material. ln collaboration with instrument manufacturers we have developed a new system to improve both quality and automation of those measurements as well as reduce the aliquot sizes in order to get access to smaller samples. Eventually we have developed sulfur isotopic analyses in collaboration with instrument manufacturers to evaluate the capacities of a new analytical setup to generate reliable N, C, S multi- isotopic analyses. Last, we summarize the contribution of this work to the evolution of stable isotope techniques and we try to evaluate the future fields of investigation for those techniques just over one hundred years old

Paléoenvironnements

Climat

Réactions métaboliques

Phosphates

Carbonates

Isotopes stables

Spectrométrie de masse

Flux continu

Paleoenvironements

Climate

Metabolic pathways

Phosphates

Carbonates

Stable isotopes

Mass spectrometry

Continuous flow

550

Mineração de genes em regiões genômicas bovinas associadas à resistência ao carrapato Rhipicephalus (Boophilus) microplus

Catoia, Vitor

13 August 2014

Made available in DSpace on 2016-06-02T20:21:37Z (GMT). No. of bitstreams: 1 6501.pdf: 1672444 bytes, checksum: 64754c3f12e26620a22bf55af9f8d5ff (MD5) Previous issue date: 2014-08-13 / The Brazilian cattle industry is presented as highlighted on the world stage and the significant participation of this productive sector in the economy means that there is concern with production losses, among which stands out those caused by infestation of Rhipicephalus (Boophilus) microplus, main ectoparasite vector cattle and various diseases. The genetic variability for resistance to the cattle tick shows that this trait can be genetically improved. For the execution of this work, it was used a study of genome wide association (GWAS) for resistance to Rhipicephalus (Boophilus) microplus, performed by Dr. Fernando Flores Cardoso, with 260 Hereford and 500 Braford animals. The monitoring of the infestation was accomplished by counting tick females larger than 4.5 mm from one of the animal's body side, and the degree of infestation was evaluated for each animal by averaging at least two consecutive counts, with intervals of approximately thirty days, in the months of highest incidence of the parasite. The animals were genotyped using a 50K SNP chip, and it was found a total of 37,346 SNPs that passed in quality test. Among these markers, 178 showed significant effects and allowed the mining of 175 genes in these regions, at an interval of 200 Kb (100 Kb for each side of each marker). Most of these polymorphisms associated with the trait is located in regions without defined functions (intronic and intergenic), and only one of them is located in the splicing region. The most significant regions of the GWAS were identified on chromosomes 7, 21 and 23, which were found 72 genes in linkage disequilibrium with the molecular markers. Therefore, a functional annotation of the genes on these 3 chromosomes was performed, allowing the choice of 11 candidate genes for the study of various metabolic pathways in which they are inserted. Among these pathways, the most important are those related to immune responses, secretion and intracellular transport, calcium influx and epidermal growth and differentiation. / A bovinocultura brasileira apresenta-se como destaque no cenário mundial e a expressiva participação deste setor produtivo na economia faz com que haja preocupação com as perdas produtivas, dentre as quais destaca-se aquelas causadas pela infestação do carrapato Rhipicephalus (Boophilus) microplus, principal ectoparasita de bovinos e vetor de diversas doenças. A variabilidade genética observada para a resistência dos bovinos ao carrapato permite que essa característica seja melhorada geneticamente, como forma alternativa de controle desses ectoparasitos. Para a execução do presente trabalho, foi utilizado um estudo de associação genômica ampla (GWAS) para a resistência ao carrapato R. microplus, o qual foi realizado pela equipe do Dr. Fernando Flores Cardoso (Embrapa Pecuária Sul), com 260 animais da raça Hereford e 500 animais da raça Braford. O monitoramento das infestações foi realizado por meio da contagem de fêmeas do carrapato com tamanho superior a 4,5 mm em um dos lados do corpo do animal, e o grau de infestação de cada animal foi avaliado pela média de pelo menos duas contagens consecutivas, com intervalos de aproximadamente trinta dias, conduzidas no sobreano, nos meses de maior incidência do parasito. Os animais foram genotipados com utilização de um chip de SNPs de 50 K e, após a realização do GWAS, verificou-se que um total de 37.346 SNPs passou nos teste de qualidade. Dentre esses marcadores, 178 SNPs apresentaram efeitos significativos e permitiram a mineração de 175 genes nessas regiões, em um intervalo de 200 Kb (100 Kb para cada lado de cada marcador). A maioria dos polimorfismos associados com a característica está localizada em regiões sem funções determinadas (intergênicas e intrônicas), apenas um deles encontra-se em região de splicing. Sendo assim, estes marcadores podem constituir mutações não causais que se encontram em desequilíbrio de ligação com mutações funcionais. As regiões mais significativas do GWAS foram identificadas nos cromossomos 7, 21 e 23, onde foram identificados 72 genes em desequilíbrio de ligação com os marcadores moleculares. Portanto, foi realizada uma anotação funcional dos genes localizados nesses 3 cromossomos, o que permitiu a seleção de 11 genes candidatos para um estudo mais aprofundado das vias metabólicas nas quais eles estão inseridos. Verificou-se que esses genes participam de processos importantes em vias já relacionadas com a resistência a carrapatos, tais como apresentação de antígenos, transporte e secreção intracelular e diferenciação da epiderme.

Genética

Animais - melhoramento genético

Infestação

Genome Wide Association Study (GWAS)

Rhipicephalus (Boophilus) microplus

Candidate genes for tick resistance

Metabolic pathways

CIENCIAS BIOLOGICAS::GENETICA

Mxr1p is a Global Regulator of Multiple Metabolic Pathways in the Methylotrophic Yeast Pichia Pastoris

Sahu, Umakant

January 2016

The present study is aimed at examining the ability of Pichia pastoris to utilize acetate and amino acids as the sole sources of carbon. We demonstrate that the zinc finger transcription factor Mxr1p, which is a positive regulator of methanol metabolism, is also required for the growth of P. pastoris in media containing acetate or amino acids as the sole source of carbon. We have identified the target genes of Mxr1p in cells cultured in media containing acetate or amino acids as the sole carbon source. We conclude that Mxr1p is a global regulator of multiple metabolic pathways in P. pastoris.

Methanol Expression Regulator 1

Methylotrophic Yeast Pichia pastoris

Mxr1p

Methanol Utilization Pathway

Pichia pastoris

P. pastoris

Zinc Finger Transcription Factor

Multiple Metabolic Pathways

Biochemistry

Etudes physiologiques et moléculaires de l'adaptation des Mucor aux matrices fromagères / Physiological and molecular studies of Mucor adaptation to cheese matrices

Morin-Sardin, Stéphanie

07 October 2016

Dans le contexte fromager, les champignons filamenteux du genre Mucor ont un rôle ambivalent. En fonction du fromage considéré, ils peuvent être assimilés à des microorganismes d’altération responsables de défauts de fabrication ou au contraire contribuer au développement des qualités organoleptiques des produits. Dans le cadre de ce travail, nous avons souhaité confirmer et objectiver la dichotomie classiquement faite en industrie fromagère entre espèces technologiques et espèces contaminantes, et investiguer les mécanismes d’adaptation potentiels mis en oeuvre chez les espèces technologiques. La morphologie et la croissance radiale de 7 souches représentatives d’espèces technologiques, contaminantes et non-fromagères (endophyte) de Mucor ont été étudiées sur différents milieux (synthétique, mimant le fromage et fromager) en fonction de facteurs clés du processus de production des fromages (température, aw, pH). Les valeurs cardinales de croissance ont été déterminées sur milieu synthétique, un modèle prédictif a été proposé et validé sur matrices fromagères pour le facteur température et la meilleure faculté de croissance des souches technologiques sur milieux fromagers par rapport au milieu synthétique a été démontrée. Une approche de protéomique comparée a permis de décrire les voies métaboliques mises en jeu par 4 de ces souches dans les deux types d’environnement, fromager et non-fromager, et 35 protéines spécifiquement surexprimées par la souche technologique M. lanceolatus UBOCC-A-109153 sur milieu mimant le fromage ont été identifiées. Les avantages compétitifs associés à ces potentiels marqueurs d’adaptation vont faire l’objet d’investigations complémentaires. / In the cheese industry context, Mucor species exhibit an ambivalent behavior, as some species are essential technological organisms contributing to the required organoleptic characteristics of some cheeses while some others can be spoiling agents. The present study aimed at better understanding this ambivalence and investigating the putative adaptation mechanisms to cheese existing in Mucor technological species. Morphology and radial growth of 7 representative Mucor species: technological, contaminant and non-cheese related (plant endophyte) species were monitored on different media (synthetic, cheese-mimicking media and cheese) in function of key parameters for cheese manufacture (temperature, aw, pH). Cardinal values were determined on synthetic medium and as a result a predictive model was proposed and validated on cheese matrices for the temperature parameter. Interestingly, cheese technological species exhibited higher optimal growth rates on cheese related matrices than on synthetic media, while the opposite was observed for non-technological species. A comparative proteomic approach allowed unraveling the main metabolic pathways playing a role in growth of 4 of the 7 studied strains on both synthetic medium and cheese-mimicking medium. This proteomic study also highlighted the occurrence of 35 proteins specifically expressed by the technological strains M. lanceolatus UBOCC-A-109153 on the cheese-mimicking medium. Putative competitive and adaptative advantages of these hypothetical adaptation markers will be tested through additional investigations.

Mucor

Fromages

Flore technologique

Flore d’altération

Adaptation

Physiologie

Voies métaboliques

Protéomique

Métabolomique

Mucor

Cheese

Spoilage

Technological species

Adaptation

Physiology

Metabolic pathways

Proteomics

Metabolomics

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