Caracterização fisiológica e do perfil de expressão gênica do transporte de nitrogênio em genótipos contrastantes para processo de fixação biológica de N2 de cana-de-açúcar (Saccharum spp.) / Physiological characterization and gene expression profile of the transport of nitrogen in contrasting cultivars for biological nitrogen fixation of sugarcane (Saccharum spp.)

Souza, Layanne Batista

29 January 2016

A cana-de-açúcar é uma cultura agrícola de grande importância econômica para o Brasil, e a expansão de seu cultivo para solos marginais requer uma maior utilização de fertilizantes à base de nitrogênio (N). Na maioria dos países produtores, a adubação nitrogenada se baseia em altas doses de aplicação, enquanto, no Brasil, o seu uso é relativamente baixo devido, em parte, ao processo de fixação biológica de nitrogênio (FBN) pela ação de bactérias diazotróficas. Além da FBN, as plantas adquirem fontes de N, como amônio e nitrato, por meio de transportadores de membranas localizados nas raízes. Há evidências que a associação com microrganismos pode favorecer as plantas por meio da regulação dos genes de transportadores de N. Desta forma, este trabalho teve como objetivo caracterizar o transporte de amônio e nitrato, avaliando a expressão gênica dos principais transportadores de N em cana-de-açúcar cultivada in vitro sob o efeito da associação com bactérias diazotróficas. Também foi descrita a comunidade bacteriana de plântulas in vitro, bem como o efeito da fertilização com N e da inoculação com bactérias diazotróficas em plantas maduras. Plântulas de \'SP70- 1143\' e \'Chunee\', que contrastam para FBN, foram empregadas em ensaios in vitro sob diversas concentrações e fontes de N em associação ou não com uma estirpe de Gluconacetobacter diazotrophicus ou um mistura de bactérias diazotróficas (G. diazotrophicus, Herbaspirillum seropedicae, H. rubrisubalbicans, Azospirillum amazonense e Burkholderia tropica). A caracterização do transporte de N por meio de ensaios de absorção de nitrato e amônio marcados (15N) revelou que a interação entre cana-de-açúcar x G. diazotrophicus induziu a expressão do gene do transportador de nitrato ScNRT2.1, o que levou a uma tendência no aumento no influxo de nitrato, assim como dos genes de transportadores de amônio ScAMT1.1 e ScAMT1.3, resultando em maiores influxos de amônio apenas para a cultivar \'SP70- 1143\'. Já a associação da cana-de-açúcar com a mistura de bactérias diazotróficas revelou que somente houve indução transcricional de ScAMT1.1, o que resultou na maior absorção de amônio em \'SP70-1143\'. Por sua vez, quando analisada a interação in vitro por 30 dias, a presença da bactéria, apesar de transiente, possivelmente favoreceu a expressão dos genes de transportadores de nitrato ScNRT1.1 e ScNRT2.1, e do transportador de amônio ScAMT1.1, resultando no maior acúmulo de 15N-nitrato de amônio nas plantas de \'SP70-1143\'. Foi detectada uma comunidade bacteriana associada a plântulas micropropagadas, a qual é distinta entre os genótipos \'SP70-1143\' e \'Chunee\' e se altera com a inoculação com G. diazotrophicus. Para as plantas cultivadas em campo, a comunidade bacteriana existente foi alterada pela fertilização de N, mas não pela inoculação com diazotróficas. Portanto, a inoculação com bactérias diazotróficas parece induzir a expressão dos principais genes transportadores de amônio e nitrato em plântulas do genótipo \'SP70-1143\' resultando na maior absorção de fontes inorgânicas de N. / Sugarcane has a large economic importance to Brazil, and it\'s the expansion of cultivation to marginal soils requires a larger application of nitrogen fertilizers (N) to maintain yield. In most producing countries, N fertilization is based on high application rates, whereas in Brazil N fertilization is relatively low, possibly due in part, to the process of biological nitrogen fixation (BNF). In addition, plants acquire inorganic N sources from the soil by membrane transporters that may be regulated by association with microorganisms. This study aimed to characterize the ammonium and nitrate transport evaluating the gene expression profile of the major transporters grown in vitro in association with diazotrophic bacteria. It was also described the bacterial community in micropropagated plants, as well as the effect of N fertilization or inoculation with nitrogen fixing bacteria in mature plants. \'SP70-1143\' and \'Chunee\' which contrasted to BNF, were used in in vitro experiments in several concentrations and N source, in association or not with a strain of Gluconacetobacter diazotrophicus or a bacteria mixture (G. diazotrophicus, Herbaspirillum seropedicae, H. rubrisubalbicans, Azospirillum amazonense and Burkholderia tropica). The characterization of the N transport by uptake assays with 15N-labeled ammonium and nitrate, revealed that the interaction between sugarcane x G. diazotrophicus induced, the nitrate transporter gene ScNRT2.1 expression, which lead to trend to increase nitrate influx, as well as the ammonium transporter genes ScAMT1.1 and ScAMT1.3, resulting in higher ammonium influx in \'SP70-1143\'. Sugarcane associated with the bacterial mixture revealed a transcriptional induction of ScAMT1.1 resulting in larger ammonium acquisition in \'SP70-1143\'. Further, the presence of bacteria in vitro for 30 days, although transient, possibly favored the expression of nitrate transporters ScNRT1.1 and ScNRT2.1, and the ammonium transporter ScAMT1.1, resulting in accumulation of 15N-ammonium nitrate in \'SP70-1143\'. A bacterial community associated with in vitro plants of \'SP70-1143\' and \'Chunee\' was detected with different composition between genotypes, and which changed with artificial inoculation. For plants grown in the field, the bacterial community was affected by N fertilization but not by inoculation with diazotrophic. These results indicate that the inoculation with diazotrophic bacteria appears to induce the expression of the major ammonium and nitrate transporters genes in \'SP70-1143\' plants resulting in higher uptake of inorganic N sources.

Absorção de N

Interação planta microrganismo

Membrane transporter

Metagenoma

Metagenome

N uptake

New sequencing methods

Novos métodos de sequenciamento

Plant-microorganism interaction

Transportadores de membrana

Regulação da expressão gênica por oxigênio em microrganismos eucariotos: análises de ESTs (Expressed Sequence Tags) e microrrays de cDNA de Trichoderma reesei / Regulation of gene expression by oxygen in eukaryotic microorganisms: Expressed Sequence Tags ESTs and Trichoderma reesei cDNA \"microarrays\"

Bonaccorsi, Eric D\'Alessandro

29 April 2003

Glicose e oxigênio são moléculas essenciais para a maioria dos organismos vivos. Além de sua importância nos processos de produção de energia - glicose como fonte de carbono e energia e oxigênio como aceptor dos elétrons doados por NADH e FADH2 - estes dois compostos funcionam como efetuadores, modulando vários processos metabólicos e fisiológicos nas células. Visto que a mitocôndria é um dos alvos afetados pelas disponibilidades destas duas moléculas, nós isolamos e seqüenciamos o genoma mitocondrial de Trichoderma reesei, um fungo multicelular empregado neste trabalho como sistema modelo. Foi estudado o efeito da variação de concentração de glicose e oxigênio sobre a expressão de transcritos do genoma mitocondrial, bem como sua implicação no metabolismo de glicose. São apresentadas análises da expressão gênica de aproximadamente 2000 transcritos de T. reesei submetido a concentrações limitantes de oxigênio dissolvido, realizadas com o emprego da técnica de microarrays de cDNA. Pelo menos 330 transcritos foram diferencialmente expressos em função da disponibilidade de oxigênio. Aqueles envolvidos nos processos de síntese protéica e divisão celular foram regulados negativamente, enquanto transcritos relacionados com funções de defesa celular e síntese de RNA foram positivamente regulados. Uma fração substancial de outros genes afetados pela baixa disponibilidade de oxigênio não possui, atualmente, funções celulares conhecidas. Esta observação deve contribuir para a posterior anotação funcional do genoma de T. reesei. Também foram identificados reguladores transcricionais diferencialmente expressos em baixas tensões de oxigênio. O perfil de expressão destes reguladores aponta-os como potenciais candidatos ao envolvimento com a expressão de genes afetados pela disponibilidade de oxigênio. / Glucose and oxygen are essential molecules in most of living organisms. In addition to their importance in production of energy - glucose as a carbon and energy source and oxygen as an acceptor of electrons donated by NADH and FADH2 - both molecules function as effectors modulating various metabolic and physiological processes in the cell. Because one of the targets affected by both molecules is the mitochondrion, we isolated and sequenced the mitochondrial genome of Trichoderma reesei, a multicellular fungus that is used in this study as a model system. The effect of varying the concentration of glucose and oxygen on the expression of the transcripts of the mitochondrial genome, and its implication on the metabolism of glucose, was studied. Gene-wide expression analyses of nearly 2000 transcripts of T. reesei under limited concentration of dissolved oxygen, using cDNA microarry technique, are presented. At least 330 transcripts were differentially expressed with respect to oxygen availability. Those involved in protein synthesis and cell division processes were downregulated, while transcripts involved in cell defense and RNA synthesis were upregulated. A substantive fraction of other anaerobically affected genes have currently unknown cellular roles, and these results should therefore contribute to further functional annotation of the genome. ln addition, we have identified transcriptional regulators that are differentially expressed at a low oxygen tensions. The expression profile of these regulators points them out as potential candidates involved in the expression of genes affected by oxygen availability.

Biologia celular

Eukaryotic microorganism

Expressão gênica

Gene expression

Genetic regulation

Glicose

Glucose

Microarray

Microarray

Microrganismo eucarioto

Oxigênio

Oxygen

Regulação gênica

Trichoderma (Metabolism)

Trichoderma (Metabolismo)

Trichoderma reesei

Trichoderma reesei

Formations végétales et diversité microbienne des substrats ultramafiques en Nouvelle-Calédonie, implication pour la conservation et la restauration écologique / Plant formation and microbial communities in ultramafic soils of New Caledonia, implication for ecological conservation and restoration.

Gourmelon, Véronique

22 August 2016

Les bactéries et champignons des sols sont impliqués dans différentes fonctions des écosystèmes terrestres. Ils sont notamment investis dans la formation des sols, la stabilité des agrégats et les successions végétales. La Nouvelle- Calédonie est un archipel subtropical, classé comme hotspot de biodiversité et dont un tiers de la surface est recouvert par les substrats ultramafiques. Ces milieux sont caractérisés par de faibles concentrations en nutriments (N, K, P) et de fortes concentrations en métaux lourds (Ni, Co, Cr, Mn). Les écosystèmes présents sur ces substrats sont originaux et diversifiés. Ils sont aussi fortement menacés par l’activité minière. Cependant, pour pouvoir correctement restaurer ces milieux et relancer les dynamiques végétales, il est important de connaître les communautés microbiennes associées à ces écosystèmes ainsi que les facteurs les structurant. Ce travail de recherche a permis d’améliorer nos connaissances sur les communautés microbiennes issues de différents écosystèmes des sols ultramafiques néo-calédoniens, ainsi que sur les interactions existantes entre ces microorganismes et les facteurs biotiques et abiotiques. Les résultats obtenus ont montré que chaque formation végétale et chaque site possèdent une communauté microbienne qui lui est propre, d’où l’intérêt de conserver et protéger les écosystèmes calédoniens. De plus, ces travaux ont aussi montré la capacité des communautés bactériennes et fongiques de servir de bio-indicateurs, et plus particulièrement les communautés fongiques qui sont plus sensibles aux perturbations et variations de la couverture végétale. Il a aussi été démontré qu’en maquis ou forêts monospécifiques, les communautésectomycorhiziennes possèdent des fonctions similaires dans la production d’enzymes de dégradation de la matière organique. Ces travaux ont permis une meilleure connaissance des communautés microbiennes associées auxformations végétales des substrats ultramalfiques ainsi que des facteurs les structurant. Cela devrait améliorer la mise en place des futurs chantiers de restauration de ces écosystèmes. / Soil bacteria and fungi play different functions in terrestrial ecosystems. They are implicated in soil formations, aggregate stability, and plant succession. New Caledonia is a subtropical archipelago, classified as a biodiverse hotspot and a third of its surface is covered by ultramafic soils. These soils are characterised by low concentrations of nutrients (N, K, P) and high concentrations of heavy metals (Ni, Co, Cr, Mn). Ecosystems present in these soils are origina and diversified but strongly threatened by mining activity. It is a necessity to restore these ecosystems after ore exploitation. However, to correctly restorethese environments and relaunch plant dynamics, it is important to identify the microbial communities associated with these ecosystems as well as the structuring factors.This research enabled us to improve our knowledge of microbial communities from different ecosystems on New Caledonian ultramafic substrates, as well as the interactions which exist between these microorganisms and biotic and abiotic factors. Results obtained showed that each plant formation and each site possessed its own microbial community,hence the interest in conserving and protecting New Caledonian ecosystems. Moreover, these works also showed the capacity of bacterial and fungal communities to be used as bioindicators, and more particularly fungal communities which are more sensitive to disturbance and plant cover variations. It has also been demonstrated that in monospecific maquis and rainforests, ectomycorrhizal communities have similar functions in the production of degradative enzymes of organic matter. This research improved understanding of microbial communities associated with plant formations on ultramafic substrates as well as structuring factors. This should improve the implementation of future restoration projectson these ecosystems.

Conservation

Restauration

Interaction plante-microorganisme

Métagénomique

Mosaïque paysagère

Conservation

Restoration

Plant-microorganism interaction

Metagenomic

Landscape mosaic

577

578.7

579

581.7

581.9

Microsystems Technology for Underwater Vehicle Applications

Jonsson, Jonas

January 2012

The aim of this thesis work has been to investigate how miniaturization, such as microsystems technology, can potentially increase the scientific throughput in exploration of hard-to-reach underwater environments, such as the subglacial lakes of Antarctica, or other challenging environments, including cave systems and wrecks. A number of instruments and subsystems applicable to miniature submersibles have been developed and studied, and their potential to provide a high functionality density for size-restricted exploration platforms has been assessed. To provide an onboard camera system with measurement capabilities, simulation and design tools for diffractive optics were developed, and microoptics realized to project reference patterns onto objects to reveal their topography. The influence of murky water on the measurement accuracy was also studied. For longer-range mapping of the surroundings, and under conditions with even less visibility, the performance of a very small, high-frequency side-scanning sonar was investigated using extensive modeling and physical testing. In particular, the interference on the acoustic beam from tight mounting in a hull was investigated. A range in excess of 30 m and centimeter resolution were obtained. Besides these systems, which can be used to navigate and map environments, a two-dimensional, thermal sensor for minute flows was developed. Measuring speed and direction of water flows, this sensor can aid in the general classification of the environment and also monitor the submersible’s movement. As the flow of waters in subglacial lakes is estimated to be minute, the detection limit and sensitivity were investigated. Measurements of water properties are facilitated by the chip-based conductivity, temperature, and depth sensor system developed. Macroscopically, this is an essential oceanographic instrument with which salinity is determined. Contrary to what was expected, MHz frequencies proved to be advantageous for conductivity measurements. Finally, sampling of water using an acoustically enriching microdevice, and even enabling return of pristine samples via the use of integrated latchable, high-pressure valves, was realized and evaluated. Particularly, investigations of the device’s ability to capture and hold on to microorganisms, were conducted. Further developed and studied, these devices – as subsystems to miniature submersibles, or as stand-alone instruments – should enable exploration of previously unreachable submerged environments. / Deeper Access, Deeper Understanding (DADU)

Aquatic

Submersible

Underwater

Micro

Miniaturized

Sonar

Sidescan

Topography

Laser

Diffractive

Optics

Sampler

Particle

Microorganism

Acoustic

Enriching

Conductivity

Temperature

Depth

CTD

Flow

Untersuchungen zur Einsatzmöglichkeit der Dreikantmuschel Dreissena polymorpha als biologischer Filter und Wasserhygienemonitor

Schröter-Bobsin, Ute

20 April 2005

Dreikantmuscheln (Dreissena polymorpha) sind aufgrund ihrer speziellen Ernährungsweise in der Lage, erhebliche Wassermengen unterschiedlichster Qualität sehr effektiv zu filtrieren und dabei zu reinigen (Biofilter). Ziel der Arbeit waren Einschätzungen zum Leistungsumfang, der Nutzung und von Grenzen des Muschelfilters. Die Exposition der Muscheln erfolgte in der Elbe am Neustädter Hafen in Dresden (Oberflächengewässer), in dem ersten und zweiten Schönungsteich der Kläranlage Reichenau (Sachsen) und in einem Waldbad in Langebrück (Badegewässer). Eine wirksame Elutionsmethode war die Grundlage um Mikroorganismen (Bakterien, Viren und Parasiten) aus dem Muschelgewebe effizient nachweisen zu können. Die bakterielle Wiederfindungsrate von 86% und eine Wiederfindung von 97% für Bakteriophagen bestätigen die Elutionseffizienz des Verfahrens. Die Befähigung von Dreissena polymorpha zu einer saisonal beeinflussten Bioakkumulation gegenüber dem Umgebungswasser konnte durch ein Monitoring mit einem Anreicherungsfaktor für Bakterien von 87 (gemittelt) und für Bakteriophagen von 261 (gemittelt) eindrucksvoll bestätigt werden. Batchversuche im Labormaßstab bestätigten die im in situ - Monitoring ermittelte Bakterienakkumulation und demonstrieren darüber hinaus eine temperaturabhängige Inaktivierung (Elimination) der Bakterien (Intestinale Enterokokken) durch die Muscheln mit Reduktionsraten von -77% bei 20°C bzw. -61% bei 6°C. Nicht alle aufgenommenen Organismen werden durch die Muscheln inaktiviert. Das ergaben die in situ Sedimentuntersuchungen unter dem Muschelfilter. Die Verdopplung der Enterokokken sowie die erhöhten Werte der somatischen Coliphagen im Sediment unter Muschelbesatz charakterisieren dieses Kompartiment als Keimreservoir. Die bakterielle Besiedlung des Verdauungstraktes von Dreissena polymorpha wird stark durch die Bakterienzönose des umgebenden Wassers beeinflusst. Sowohl im Wasser als auch im Muschelgewebe dominierten fünf Bakterienstämme (Actinobacteria, Proteobacteria, Bacteroidetes, Firmicutes,"environmental group"). Eine auffallend hohe Dominanz zeigten die Mycoplasmen (Firmicutes), was auf eine mögliche ökologische Nische für Vertreter dieser Gattung in der Muschel hindeutet. In allen Muscheleluaten des Monitorings wurden Legionellen nachgewiesen. Die Muscheln des Teiches 2 der KA Reichenau zeigten mit 86% die höchste Kontamination aller Expositionsorte. Legionellenamplifikate im Muscheleluat 2 gingen kontinuierlich mit ebenfalls positiven Befunden im Wasser einher, so dass der Einsatz von Dreissena polymorpha auch im Biomonitoring von Legionellaceae möglich ist. Erstmalig wurden in der Elbe und im Abwasser der KA Reichenau E. coli O157:H7 infizierenden Phagen und deren Anteile nachgewiesen. Die Elbe lag mit einem E. coli O157:H7 infizierenden Phagenanteil von 7,5% deutlich über dem Rohabwasser (1,0%) und dem Zulauf zum ersten Schönungsteich der Kläranlage (0,5%). Der Stx Gennachweis im Muscheleluat war dagegen nur in einer von 24 Proben erfolgreich. Enterale Viren (AdV, EV) wurden in den Dreikantmuscheln und ihrem Umgebungswasser diskontinuierlich nachgewiesen. Enteroviren wurden im Wasser (57% gemittelt) häufiger als in der parallelen Muschelproben (10%) nachgewiesen. Parasiten (Giardia lamblia und Cryptosporidium parvum) werden durch die exponierten Muscheln aufgenommen, dies bestätigten die qualitativen Testergebnisse. In den Dreikantmuscheln wurde sowohl für G. lamblia (78%), als auch für Cryptosporidien (77%) eine durchschnittlich höhere Nachweisrate im Vergleich zu den korrespondierenden Wasserproben (42% und 36%) ermittelt. Die effiziente Akkumulation und die Umweltresistenz der Dreikantmuscheln sind hervorragende Eigenschaften, die sich zu einem zuverlässigen Biomonitor mit "Hygienegedächtnis" und hoher Sensibilität vereinen lassen.

Bioakkumulation

Biomonitor

Mikroorganismen

Muschelfilter

accumulation

biological filter

microorganism

mussel-monitor

ddc:590

rvk:WC 5450

Bioakkumulation

Biomonitoring

Filtrierer

Leistung

Mikroorganismus

Wandermuschel

Wasserhygiene

Wasserreinigung

Régulation de la croissance microbienne en environnements variables : étude théorique et expérimentale de la distribution des ressources chez Escherichia coli / Microbial growth control in changing environments : Theoretical and experimental study of resource allocation in Escherichia coli

Giordano, Nils

23 March 2017

Croissance et reproduction sont des mécanismes fondamentaux du vivant. Chez les micro-organismes, ces processus sont couplés dans la transformation des ressources de l'environnement (matière et énergie) en nouvelles structures organiques. Étonnamment, malgré l'extrême diversité des micro-organismes, certaines caractéristiques de leur physiologie suivent des lois de croissance universelles. Cela suggère l'existence de principes fondamentaux, ce qui a été en effet récemment confirmé en montrant que ces lois s'expliquent facilement si l'organisme maximise son taux de croissance dans chaque environnement. Cependant, ces lois ont seulement été étudiées lors de croissances à l'état stationnaire, c'est-à-dire lorsque l'environnement et donc le taux de croissance sont stables. Ces conditions, même si elles peuvent être reproduites en laboratoire, n'ont rien à voir avec les conditions de vie dans lesquelles les organismes ont évolué durant des milliards d'années. Le but de cette thèse est d'étendre dans un contexte d'environnement purement dynamique, l'étude à la fois théorique et expérimentale de ces stratégies de croissance microbienne.En modélisant la cellule comme un auto-réplicateur, nous cherchons à savoir quelles sont les meilleures stratégies d'allocation des ressources lors de l'adaptation à un nouvel environnement. Ce problème se formule très bien comme un problème de contrôle optimal : la cellule choisit en temps réel comment allouer ses ressources entre la machinerie d'expression génique et le métabolisme. Le meilleur comportement possible, comme le révèle l'application du Principe de Maximisation de Pontryagin, est de successivement orienter toutes les ressources dans chacun des deux secteurs, une stratégie communément appelée bang-bang. Mais s'approcher d'un tel contrôle requiert pour la cellule des stratégies de régulation bien plus complexes que celles qui étaient suffisantes pour maximiser le taux de croissance à l'état stationnaire. De manière intéressante, la régulation de la synthèse des ribosomes par le ppGpp chez la bactérie Escherichia coli s'avère présenter la structure adéquate. Nous montrons en effet qu'elle permet de détecter rapidement toute incompatibilité entre la concentration de précurseurs et celle des ribosomes, et d'ajuster en conséquence la synthèse de ces derniers pour obtenir un comportement proche de l'optimum mathématique prédit.Même si de vieilles données le suggèrent, un tel comportement bang-bang n'a jamais été totalement confirmé expérimentalement pour la synthèse des ribosomes. Nous mesurons donc l'abondance des ribosomes chez Escherichia coli au niveau d'une cellule unique lors d'un changement brutal de milieu de culture. En particulier, nous créons une souche de E. coli sur laquelle un rapporteur fluorescent est attaché à l'une des sous-unités ribosomales, permettant ainsi leur quantification in vivo. Un appareillage micro-fluidique nous permet ensuite de contrôler en temps réel le milieu de croissance tout en observant individuellement chaque cellule fluorescente. Nous développons une méthode basée sur le lissage de Kalman qui est capable de reconstruire la façon dont les ressources sont aiguillées vers la synthèse des ribosomes. Même si ces résultats sont préliminaires, ils suggèrent que la concentration des ribosomes oscille après le changement d'environnement, ce qui rappelle une stratégie de type bang-bang.Nos résultats montrent que la capacité des systèmes de régulations à intégrer l'état de différentes variables physiologiques est crucial dans l'optimisation de la croissance en environnement variable. Au final, nous démontrons que les principes utilisés à l'état stationnaire peuvent, lorsqu'ils sont appliqués en dynamique, générer des comportements inattendus et expliquer plus en détails les stratégies de régulations employées par les micro-organismes. / Growth is the most fundamental property of life. Growth consists in the transformation of matter and energy from the environment into diverse organic structures. Interestingly, general growth laws relate the macromolecular composition of the cell to growth rate. These laws are widespread and conserved in different microbial species, suggesting a fundamental principle of design. Recent work has shown that these empirical regularities can be derived from coarse-grained models of resource allocation and explained by the principles of natural selection. However, the vast majority of these studies focus on steady-state growth. Such conditions are rarely found in natural habitats, where microorganisms are continually challenged by environmental fluctuations. The aim of this thesis is to extend the theoretical and experimental studies of microbial growth strategies to changing environments.Using a self-replicator model, we developed a theoretical framework that encapsulates the main features of growth. We formulate dynamical growth maximization as an optimal control problem that the microbial cell must solve in order to allocate the available resources to the gene expression machinery or to metabolism. Using Pontryagin's Maximum Principle, we have derived a general solution to the optimization problem and we have compared the optimal strategy with possible implementations of growth control in bacterial cells. Our results show that simple control strategies that maximize the growth-rate at steady state are suboptimal for transitions from one growth regime to another. We show that a near-optimal control strategy in dynamical conditions requires information about several, rather than a single, physiological variable. Interestingly, this strategy has structural analogies with the regulation of ribosomal protein synthesis by the signaling molecule ppGpp in the enterobacterium Escherichia coli. The strategy involves sensing a discrepancy between the concentrations of precursor metabolites and ribosomes, and the control of the rate of ribosome synthesis in a switch-like manner.Even though this switch-like ribosome synthesis has been suggested by published data, the phenomenon has never been experimentally confirmed. We therefore measured ribosomal abundance in Escherichia coli at the single-cell level during a nutrient upshift. More precisely, we constructed a strain in which a fluorescent marker has been attached to a ribosomal subunit, thus allowing in-vivo monitoring of the abundance of ribosomes. We monitored this strain in a microfluidics device designed for long-term imaging of individual cells in a continuous culture, and used this experimental setup to simulate a nutrient upshift by changing the input medium. We developed a Kalman smoothing method for extracting quantitative information about resource allocation to ribosome synthesis from the raw data. Even though our preliminary results do not allow to reach a final conclusion, they do suggest the presence of oscillatory patterns after an upshift that are reminiscent of the expected behavior.Our results demonstrate that the capability of regulatory systems to integrate information about several physiological variables is critical for optimizing growth in a changing environment. The proposed control scheme correctly reproduces the observed growth laws at steady state, but also predicts novel and unexpected behaviors when applied to a dynamical environment. Our improved understanding of the principles that govern the control of bacterial growth could be used for improving biotechnological processes, in particular those that use microorganisms to produce high valuable-added products for the chemical or biomedical industry.

Modélisation

Croissance

Micro-Organisme

Machinerie d'expression génique

Biologie des systèmes

Contrôle optimal

Modelling

Growth

Microorganism

Gene expression machinery

Systems biology

Optimal control

570

The establishment of a routine monitoring technique for detecting the most prevalent pathogenic viruses in river water, Western Cape, South Africa

Saayman, Michael John

January 2012

Thesis submitted in fulfilment of the requirements for the degree Master of Technology: Biomedical Technology in the Faculty of Health and Wellness Sciences at the Cape Peninsula University of Technology, 2012 / In many developed countries worldwide the provision of safe, clean water is an expected commodity. In South Africa however, as in most developing countries, the access and supply of water safe for human consumption is challenged or complicated by pollution and more recently water availability. Point-source pollutants in surface- and groundwater are normally the most concentrated closest to the pollutant source (such as the end of a pipe or an underground injection system). Examples of point-source pollution are commercial and industrial businesses, that often discharge waste such as solvents and heavy metals from their operations. In contrast, non-point-source pollution occurs due to runoff moving across or through the ground and absorbing and accumulating pollutants which eventually end up in streams, rivers and dams. The lack of waste removal and adequate sanitation facilities results in the disposal of faecal matter and sewage into storm water drains which flow directly into the river systems contributing to the incidence of diseases such as gastroenteritis, diarrhoea and chronic lung ailments, caused by waterborne pathogenic bacteria, viruses and fungi. Routine water quality analysis however, does not include monitoring for viral contaminants, as this process is hampered by the lack of simple, reliable, time- and cost-effective testing methods to concentrate and detect viral pathogens. The primary aim of this study was thus to establish and optimise routine monitoring techniques for the detection of rota-, adeno- and enteroviruses in the Berg- and Plankenburg Rivers, Western Cape. Initially, various concentration and extraction methods were compared for the optimum recovery of viruses from spiked water samples. One hundred milliliter water samples were spiked with one milliliter rotavirus and two milliliters adenovirus control virions (Coris Bioconcept, Gembloux, Belgium). Optimisation testing of enterovirus was however, not completed due to the unavailability of a positive control. Four viral concentration techniques, namely the Silicon dioxide (SiO2) method, positively charged, negatively charged and the mixed-ester filters, were compared. Various nucleic acid extraction methods were also employed to establish which method would provide optimum yields for both DNA and RNA nucleic acids. The extraction techniques included the TRIzol method (Invitrogen, California, USA) for RNA extraction, the Roche High Pure PCR Template Preparation kit (Roche, Mannheim, Germany) for DNA extraction, and the QIAamp Ultrasens Virus kit (Qiagen GmbH, Hilden, Germany) for simultaneous RNA and DNA extraction. The use of virus specific primers within the PCR technique was also optimised. In addition, gene specific primers and oligo(dT)15 primers were tested and compared to establish which primers would yield the best results since gene specific primers are said to be more sensitive than oligo(dT)15 primers (van Pelt-Verkuil et al., 2008) when synthesising cDNA (rotavirus). The SiO2 concentration method yielded variable results when it was used with the various nucleic acid extraction techniques in this study, since positive PCR results were obtained when used in combination III with some techniques, while negative results were obtained with others. Similarly, variable results were also obtained when negatively charged filters were used to concentrate virus particles, and when this method was used in conjunction with various virus nucleic acid extraction techniques to identify different viruses by RT-PCR and PCR. Results for the non-charged mixed-ester filter were comparable to the positively charged filters when used in conjunction with the various nucleic acid extraction techniques in this study. Both these techniques yielded the highest viral particle concentration from the spiked water samples. Pilot study results indicated the presence of rotavirus and adenovirus detected by RT-PCR and PCR respectively, when filtering through the positively charged filter. The positively charged filter/QIAamp UltraSens virus kit combination was found to be the optimum combination when analysing the spiked water results and was then employed for the concentration of virus particles in the river water samples collected from the Plankenburg- and Berg River systems throughout the study period. The expected PCR product of 346 bp for rotavirus was absent in all 72 river water samples analysed for both river systems. In contrast to the PCR results obtained for rotavirus, the expected product of 261 bp for adenovirus was detected in 22 (30.5%) samples collected throughout the study period. Fifteen of the 22 adenovirus positive samples were found in the Plankenburg River (distributed over all sites), while seven of the 22 adenovirus positive samples were found in the Berg River (all sites). A nested PCR was used to detect enterovirus in the river water samples collected from both river systems throughout the study period. In the first round of the enterovirus PCR 15 river water samples (at various sites for both river systems) yielded a faint 513 bp product. Further amplification by nested PCR then yielded 13 (18.1%) positive nested PCR products of 297 bp. The incidence of adenovirus and enterovirus in river waters reported in the current study and the Van Heerden et al. (2003) investigation motivates for similar studies to be conducted in drinking water, dam water used for recreational purposes as well as rainwater, which is gaining popularity as a sustainable water source.

Host-virus relationships

Virus diseases -- Pathogenesis

Pathogenic microorganism -- Detection

Rivers -- South Africa

Water -- Pollution

Water quality -- South Africa

Water quality -- Analysis

Dissertations, Academic

MTech

Theses, dissertations, etc.

The establishment of a routine monitoring technique for detecting the most prevalent pathogenic viruses in river water, Western Cape, South Africa

Saayman, Michael John

January 2012

Thesis (MTech (Biomedical Technology))--Cape Peninsula University of Technology, 2012. / In many developed countries worldwide the provision of safe, clean water is an expected commodity. In South Africa however, as in most developing countries, the access and supply of water safe for human consumption is challenged or complicated by pollution and more recently water availability. Point-source pollutants in surface- and groundwater are normally the most concentrated closest to the pollutant source (such as the end of a pipe or an underground injection system). Examples of point-source pollution are commercial and industrial businesses, that often discharge waste such as solvents and heavy metals from their operations. In contrast, non-point-source pollution occurs due to runoff moving across or through the ground and absorbing and accumulating pollutants which eventually end up in streams, rivers and dams. The lack of waste removal and adequate sanitation facilities results in the disposal of faecal matter and sewage into storm water drains which flow directly into the river systems contributing to the incidence of diseases such as gastroenteritis, diarrhoea and chronic lung ailments, caused by waterborne pathogenic bacteria, viruses and fungi.

Host-virus relationships

Virus diseases -- Pathogenesis

Pathogenic microorganism -- Detection

Rivers -- South Africa -- Western Cape

Water -- Pollution

Water quality -- Analysis

Svítidla - konvolut osvětlovacích těles / The Luminars - a convolute of illuminational bodies

VODÁKOVÁ, Helena

January 2010

The Diploma thesis introduces the luminars as the creative objects importing the light into our homes and effecting our mood. The objects are modeled of the slurry combined with glass. These are determined to the installation on the table, floor, wall and ceiling. For the shape I was inspired by MICROCOSM = a world of unicellular living being, before all by the protozoans. It is a world full of bizar structures and shapes. The simplicity and expediency of the protozoans offers the inexhaustible amount of ideas. Each of the objects has got its adumbrating image in some of the protozoans. Teir shapes, determination of kind, conditions, in which they live, were determinating the luminars´ visage. Although the inspiring source is stating them the individual luminars presents original, solitary objects.

ISOLAMENTO, IDENTIFICAÇÃO E CARACTERIZAÇÃO DE LINHAGENS ENDOFÍTICAS DE Bacillus thuringiensis DE MANDIOCA (Manihot esculenta Crantz) / Isolation, identification and characterization of endophytic strains of Bacillus thuringiensis from cassava (Manihot esculenta Crantz)

Marise Tanaka Suzuki

08 June 2006

Bactérias endofíticas provavelmente desenvolveram uma relação com planta hospedeira através de processos coevolucionários, podendo influenciar de alguma forma na fisiologia da planta. Na literatura, há muitos relatos sobre espécies de Bacillus endofíticos, no entanto, poucos se referem a espécie B. thuringiensis (Bt). Dessa forma, o objetivo desse trabalho foi isolar, identificar e caracterizar Bt de mandioca. Todos os isolados identificados como Bt produziram cristais pontuais e apenas um isolado, IIRAC22, produziu cristais amorfos maiores. Esse isolado apresentou genes cry4A, cry4B e cry10 e toxicidade a larvas de Aedes aegypti e Culex quinquefasciatus, evidenciando ser Bt var. israelensis. Todos os isolados produziram quitinase, sugerindo que elas podem ter ação controladora sobre fungos fitopatogênicos e insetos. Houve também produção de pectinase, enzimas envolvidas na penetração de planta hospedeira e estabelecimento como endófito. Esses Bt endofíticos podem levar ao desenvolvimento de produtos biotecnológicos para controle de insetos. / Endophytic bacteria probably developed a relationship with their plant host through coevoltionary processes what could influence in the physiology of the plant. In the literature, there are many reports about endophytic Bacillus species, however, few reports cite endophytic B. thuringiensis (Bt). Thus, the aim of the present work was to isolate, identify and characterize Bt from cassava. All the isolates identified as Bt were able to produce punctual crystals, but only one isolate, IIRAC22, produced large amorphous crystals. This isolate presented cry4A, cry4B and cry10 genes and toxicity against larvae of Aedes aegypti and Culex quinquefasciatus, evidencing to be Bt var. israelensis. All the isolates produced quitinase, suggesting that they can control phytopathogeni fungi and insects. There was also pectinase production, enzyme involved in the penetration of plant hosts and establishment as endophytes. These endophytic Bt can take to the development of biotechnological products for the control of insect.

Bacillus thuringiensis

Controle Biológico

genes cry

Manihot esculenta Crantz

Microrganismo Endofítico

Perfil de Ácidos Graxos

Bacillus thuringiensis

Biological Control

cry genes

Endophytic Microorganism

Fatty Acids Profile

Manihot esculenta Crantz