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Úloha genu yxkO Bacillus subtilis v odpovědi na environmentální stres. / Role of the yxkO gene of Bacillus subtilis in responce to environmental stress.Petrovová, Miroslava January 2010 (has links)
ROLE OF THE YXKO GENE OF BACILLUS SUBTILIS IN RESPONCE TO ENVIRONMENTAL STRESS Abstract Mutation of the yxkO gene, which encodes a putative ribokinase and belongs to the σB general stress response regulon, leads to reduced salt tolerance under potassium limitation in Bacillus subtilis. The biological function of the yxkO gene has not been determined yet, but it may be involved in the high affinity potassium uptake system, which has been described in Escherichia coli in contrast to Bacillus subtilis. Our goal was to describe another features of a mutant in the yxkO gene and to try to propose the role of this gene. Using the integration vector pMutin4, we prepared a Bacillus subtilis strain MP2 with a yxkO gene inactivation. The MP2 strain displays limited growth in a rich medium and it is a sensitive strain to tetracycline. Furthermore, this strain is unable to form endospores and the cells are longer, which indicates a septum formation defect. We accomplished a 2-D protein gel analysis to compare expression profiles of the MP2 strain and the 1A680 standard strain after salt and ethanol stress. The MP2 strain shows changes in productions of some energy metabolism enzymes and flagellin protein. We conclude that yxkO is a regulatory gene, whose product has a pleiotropic effect on many of cell functions.
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Study of the cryopreservation-related stresses in the lactic acid bacterium Lactobacillus delbrueckii subsp. bulgaricus through a global and multi-scale approach / Etude des stress liés au procédé de cryopréservation via une approche globale et multi-échelle chez la bactérie lactique Lactobacillus delbrueckii subsp. BulgaricusMeneghel, Julie 12 October 2017 (has links)
La cryopréservation engendre des dégradations variables de l’activité biologique et des fonctionnalités des bactéries lactiques, notamment chez Lactobacillus delbrueckii subsp. bulgaricus, un starter de l’industrie laitière. Le but de ce travail a été d’identifier les marqueurs cellulaires de cryorésitance et de cryosensibilité afin de mieux comprendre les mécanismes de dégradation sous-jacents et d’améliorer les performances industrielles des bactéries lactiques. La cryopresérvation a ici été considérée comme une combination de deux stress majoritaires : froid et osmotique. Une attention particulière a été portée à l’analyse de la membrane cellulaire, un site majeur de dégradation lié à la congélation, mais également à la paroi cellulaire et aux protéines. De plus, les cellules ont été analysées à différentes échelles d’observation, de la population jusqu’à la cellule unique, afin de quantifier l’hétérogénéité des propriétés cellulaires existant au sein de populations. Dans une première partie de ce travail, des conditions de culture ont été comparées pour identifier deux souches de L. bulgaricus présentant des résistances contrastées vis-à-vis de la congélation. Une analyse génomique comparative des souches a également été menée dans le but de fournir des pistes de compréhension de ces comportements différents. Dans une seconde partie, des propriétés membranaires des cellules ont été évaluées en réponse aux stress froid et osmotique : composition en acides gras, organisation au niveau des chaînes d’acides gras et des têtes phospholipidiques, et fluidité.Leur fluidité membranaire a également été caractérisée à une échelle subcellulaire par microscopie de fluorescence au moyen du rayonnement synchrotron, permettant la quantification des hétérogénéités inter- et intra-cellulaires. Enfin, un développement technique et méthodologique a été entrepris afin de permettre l’analyse de bactéries individuelles en milieu aqueux par spectroscopie infrarouge à transformée de Fourier, et ainsi leur signature biochimique en conditions natives. Ces approches complémentaires et multidisciplinaires ont révélé l’existence de propriétés et d’organisation différentes de la membrane des deux souches de L. bulgaricus. Différents types d’interaction entre les molécules cryoprotectrices du milieu extracellulaire et la membrane des deux souches a été proposé, pouvant être à l’origine des dommages causés à la souche sensible. De plus, une hétérogénéité plus importante au sein de la population sensible a été identifiée, attribuée à des différences en termes de composition biochimique et d’organisation au niveau de la membrane et de la paroi. Finalement, ce travail suggère quelques marqueurs cellulaires d’évaluation de la cryorésistance des bactéries lactiques, et fournit des méthodes de caractérisation de l’hétérogénéité biochimique au sein des populations. Ceux-ci pourraient être appliqués à l’étude de toute autre étape critique du procédé de production des bactéries lactiques, et pourraient être utiles pour aller vers la production de ferments homogènes au niveau de leur résistance. / Cryopreservation leads to variable degradation of the biological activity and functionality among lactic acid bacteria (LAB), particularly Lactobacillus delbrueckii subsp. bulgaricus, a dairy starter of industrial relevance. The aim of this work was to identify cellular markers of cryoresistance or cryosensitivity for better understanding the mechanisms of cell cryoinjury and increasing LAB industrial performances. Cryopreservation was here considered as a combination of cold and osmotic stresses. A particular focus was given to the analysis of the cell membrane, recognised as a primary site of cryoinjury, but also of the cell wall and proteins. Moreover, cells were analysed from the population level down to the single-cell level to quantify the heterogeneity of cell properties within populations. In the first part of this work, bacterial cultivation conditions were compared to identify two L. bulgaricus strains with markedly different cell cryoresistance. Moreover, a comparative genomic analysis of the strains was performed to provide some clues for the explanation of their different behaviours. In the second part of this work, the membrane properties were evaluated in response to the cold and osmotic stresses: fatty acid composition, organisation of fatty acyl and phospholipid headgroups, and fluidity.Subcellular membrane fluidity was also characterised by fluorescence microscopy using synchrotron radiation, enabling the quantification of inter- and intra-cellular heterogeneities. Finally, original methodological and technical developments were undertaken to achieve the analysis of individual bacterial cells in an aqueous environment by Fourier transform infrared (FTIR) spectroscopy, for the analysis of the biochemical signature of cells under native conditions. These complementary multidisciplinary approaches revealed different properties and organisation of the membrane of both L. bulgaricus strains. It was proposed that different types of interaction between cryoprotectants of the extracellular matrix and the membrane of both strains could be at the origin of cryoinjury for the sensitive strain. Moreover, a high population heterogeneity characterised the cryosensitive strain, ascribed to differences in terms of biochemical composition and organisation of the membrane and cell wall. Altogether, this work suggests some cellular markers to evaluate LAB cryoresistance and provides methods to characterize population biochemical heterogeneity. These could be applied to any other stressful step of their production process, and should be useful for future production of homogeneous populations of resistant LAB.
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Small Angle Scattering Of Large Protein Units Under Osmotic StressPalacio, Luis A. 05 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Large protein molecules are abundant in biological cells but are very difficult to study in physiological conditions due to molecular disorder. For large proteins, most structural information is obtained in crystalline states which can be achieved in certain conditions at very low temperature. X-ray and neutron crystallography methods can then be used for determination of crystalline structures at atomic level. However, in solution at room or physiological temperatures such highly resolved descriptions cannot be obtained except in very few cases. Scattering methods that can be used to study this type of structures at room temperature include small-angle x-ray and neutron scattering. These methods are used here to study two distinct proteins that are both classified as glycoproteins, which are a large class of proteins with diverse biological functions. In this study, two specific plasma glycoproteins were used: Fibrinogen (340 kDa) and Alpha 1-Antitrypsin or A1AT (52 kDa). These proteins have been chosen based on the fact that they have a propensity to form very large molecular aggregates due to their tendency to polymerize. One goal of this project is to show that for such complex structures, a combination of scattering methods that include SAXS, SANS, and DLS can address important structural and interaction questions despite the fact that atomic resolution cannot be obtained as in crystallography. A1AT protein has been shown to have protective roles of lung cells against emphysema, while fibrinogen is a major factor in the blood clotting process. A systematic approach to study these proteins interactions with lipid membranes and other proteins, using contrast-matching small-angle neutron scattering (SANS), small angle x-ray scattering (SAXS) and dynamic light scattering (DLS), is presented here. A series of structural reference points for each protein in solution were determined by performing measurements under osmotic stress controlled by the addition of polyethylene glycol-1,500 MW (PEG 1500) in the samples. Osmotic pressure changes the free energy of the molecular mixture and has consequences on the structure and the interaction of molecular aggregates. In particular, the measured radius of gyration (Rg) for A1AT shows a sharp structural transition when the concentration of PEG 1500 is between 33 wt% and 36 wt%. Similarly, a significant structural change was observed for fibrinogen when the concentration of PEG 1500 was above 40 wt%. This analysis is applied to a study of A1AT interacting with lipid membranes and to a study of fibrinogen polymerization in the presence of the enzyme thrombin, which catalyzes the formation of blood clots. The experimental approach presented here and the applications to specific questions show that an appropriate combination of scattering methods can produce useful information on the behavior and the interactions of large protein systems in physiological conditions despite the lower resolution compared to crystallography.
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Caracterização molecular da Linhagem Pedra 2 de Saccharomyces cerevisiae sob condições de alto etanol em fermentadores industriais / Molecular characterization of Saccharomyces cerevisiae Pedra-2 strain under high ethanol conditions in industrial fermentatorsLopes, Lucas Souza 28 November 2014 (has links)
A linhagem Pedra 2 (PE-2) de Saccharomyces cerevisiae destaca-se por ser o organismo mais comumente utilizado no processo industrial de produção de biocombustíveis. Com a descoberta das linhagens selvagens, alcançou-se uma maior tolerância ao etanol permitindo o desenvolvimento de uma nova tecnologia: a fermentação com alto teor alcoólico. Desta forma, foi possível aumentar tanto a concentração de açúcares totais do mosto quanto o volume final de etanol purificado. No entanto, esse novo processo de fermentação tem causado um agravamento nos diversos estresses aplicados à levedura. No presente trabalho, é apresentado o perfil transcricional da linhagem PE-2 sob condições de alto etanol em fermentadores industriais através da tecnologia de microarranjo de DNA. Com a utilização desta, analisou-se o perfil global da expressão da levedura, identificando grupos de genes de interesse e vias metabólicas correguladas no processo de adaptação e sobrevivência às diferentes condições de estresses impostas a levedura pela fermentação industrial. Mais especificamente, 5860 genes foram estudados nesse trabalho e tiveram as suas variações de expressão quantificadas ao longo dos tempos 0, 6, 12 e 18 horas do ciclo fermentativo industrial. Em particular, algumas vias metabólicas associadas a compostos-chave no processo fermentativo tiveram seus genes diferenciamente expressos mapeados. Além disso, identificou-se vários grupos de genes altamente correlacionados a diferentes processos biológicos em S. cerevisiae, como por exemplo, a atividade de biossíntese de etanol. Por fim, espera-se que estes resultados forneçam bases para a realização de estudos mais direcionados no intuito de obter uma maior eficiência fermentativa e adaptação a estresses gerados durante durante o processo industrial. / The Pedra-2 (PE-2) strain of Saccharomyces cerevisiae is commonly used in the industrial process for biofuel production. In studies of wild type strains of S. cerevisiae, a wider tolerance to ethanol was achieved, which allowed for the development of a new technology of high alcohol percentage fermentation. This process made possible the increase of total sugar concentration in the mixture, and the volume of purified ethanol, although the new process has caused increase in the stresses applied to the yeast. In this study, the transcriptional profile of the PE-2 strain in high ethanol conditions is presented using DNA microarray. The global expression profile was used to identify groups of genes of interest and to analyze metabolic pathways that became co-regulated in adaptation to stress conditions imposed to the yeast by the industrial fermentation. In particular, 5860 genes were studied in this work and were detailed according to their expression profiles belong the fermentation cicle (0, 6, 12 and 18 hours). Moreover, metabolic pathways associated to key compounds in the fermentative process were described in terms of the composition of the differentially expressed genes. In addition, groups of genes highly correlated to different biological process in S. cerevisiae were identified. Finally, it is expected that this work could provide new directions in the study of fermentative efficiency and induced stress adaptation during the industrial fermentative process.
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Struktur und Fluktuationen festkörpergestützter Phospholipidmembranen / structure and fluctuations of solid supported phospholipid membranesMennicke, Ulrike Katharina 18 August 2003 (has links)
No description available.
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Caracterização molecular da Linhagem Pedra 2 de Saccharomyces cerevisiae sob condições de alto etanol em fermentadores industriais / Molecular characterization of Saccharomyces cerevisiae Pedra-2 strain under high ethanol conditions in industrial fermentatorsLucas Souza Lopes 28 November 2014 (has links)
A linhagem Pedra 2 (PE-2) de Saccharomyces cerevisiae destaca-se por ser o organismo mais comumente utilizado no processo industrial de produção de biocombustíveis. Com a descoberta das linhagens selvagens, alcançou-se uma maior tolerância ao etanol permitindo o desenvolvimento de uma nova tecnologia: a fermentação com alto teor alcoólico. Desta forma, foi possível aumentar tanto a concentração de açúcares totais do mosto quanto o volume final de etanol purificado. No entanto, esse novo processo de fermentação tem causado um agravamento nos diversos estresses aplicados à levedura. No presente trabalho, é apresentado o perfil transcricional da linhagem PE-2 sob condições de alto etanol em fermentadores industriais através da tecnologia de microarranjo de DNA. Com a utilização desta, analisou-se o perfil global da expressão da levedura, identificando grupos de genes de interesse e vias metabólicas correguladas no processo de adaptação e sobrevivência às diferentes condições de estresses impostas a levedura pela fermentação industrial. Mais especificamente, 5860 genes foram estudados nesse trabalho e tiveram as suas variações de expressão quantificadas ao longo dos tempos 0, 6, 12 e 18 horas do ciclo fermentativo industrial. Em particular, algumas vias metabólicas associadas a compostos-chave no processo fermentativo tiveram seus genes diferenciamente expressos mapeados. Além disso, identificou-se vários grupos de genes altamente correlacionados a diferentes processos biológicos em S. cerevisiae, como por exemplo, a atividade de biossíntese de etanol. Por fim, espera-se que estes resultados forneçam bases para a realização de estudos mais direcionados no intuito de obter uma maior eficiência fermentativa e adaptação a estresses gerados durante durante o processo industrial. / The Pedra-2 (PE-2) strain of Saccharomyces cerevisiae is commonly used in the industrial process for biofuel production. In studies of wild type strains of S. cerevisiae, a wider tolerance to ethanol was achieved, which allowed for the development of a new technology of high alcohol percentage fermentation. This process made possible the increase of total sugar concentration in the mixture, and the volume of purified ethanol, although the new process has caused increase in the stresses applied to the yeast. In this study, the transcriptional profile of the PE-2 strain in high ethanol conditions is presented using DNA microarray. The global expression profile was used to identify groups of genes of interest and to analyze metabolic pathways that became co-regulated in adaptation to stress conditions imposed to the yeast by the industrial fermentation. In particular, 5860 genes were studied in this work and were detailed according to their expression profiles belong the fermentation cicle (0, 6, 12 and 18 hours). Moreover, metabolic pathways associated to key compounds in the fermentative process were described in terms of the composition of the differentially expressed genes. In addition, groups of genes highly correlated to different biological process in S. cerevisiae were identified. Finally, it is expected that this work could provide new directions in the study of fermentative efficiency and induced stress adaptation during the industrial fermentative process.
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Impact des fluctuations de l'humidité relative de l'air sur la survie de Listeria monocytogenes : application à l'amélioration de l'hygiène dans les ateliers de production alimentaire / Impact of relative air humidity fluctuations on the survival of Listeria monocytogenes : application to improve hygiene in food processing environmentZoz, Fiona 13 December 2016 (has links)
Les fluctuations hydriques influencent l'activité et la viabilité des microorganismes. L’humidité relative de l’air est ainsi un paramètre potentiellement efficace pour maîtriser le développement et la persistance de microorganismes pathogènes. Cependant, l’efficacité de ce paramètre reste peu connue par rapport à d’autres facteurs environnementaux comme le pH ou la température. Le séchage est l'étape finale des procédures de nettoyage et de désinfection en industrie agroalimentaire. Cependant, il est aujourd'hui utilisé de façon empirique alors qu'il pourrait permettre d'améliorer la décontamination des surfaces dans les ateliers et diminuer la persistance des microorganismes. Malgré les procédures de nettoyage et de désinfection, la bactérie Listeria monocytogenes est fréquemment retrouvée dans l'industrie agroalimentaire et y persiste pendant de longues périodes. Evaluer et comprendre l'impact des fluctuations hydriques sur la survie de L. monocytogenes afin d'en optimiser la destruction sur une surface, constituent ainsi les principaux objectifs de cette thèse.Dans un premier temps, 30 souches de L. monocytogenes isolées de différents environnements de transformation des aliments et présentant différents sérotypes et niveaux de virulence ont été exposées à un stress hyperosmotique et à un séchage. Cette approche a permis d'analyser les différences de résistance entre les souches et de sélectionner quatre souches présentant différents profils de résistance pour poursuivre les travaux.Afin de définir les conditions de fluctuations hydriques les plus létales pour les souches de L. monocytogenes, différents paramètres ont été étudiés tels que la vitesse de déshydratation, le niveau d’humidité relative, la vitesse de réhydratation, l’application de cycles successifs de déshydratation-réhydratation et le milieu de séchage.Enfin, les mécanismes cellulaires induisant la mort de L. monocytogenes lors des fluctuations hydriques ont été explorés par spectroscopie infrarouge à transformée de Fourier, microscopie à force atomique, cytométrie en flux et par séchage en anaérobiose. Ces différentes méthodes ont permis de révéler qu'un stress mécanique et structural sont majoritairement responsables de la mort de L. monocytogenes.L’ensemble de ce travail démontre que la maîtrise du niveau et des variations de l’humidité relative de l’air est un moyen efficace pour détruire L. monocytogenes et offre de réelles perspectives d’application pour améliorer l’hygiène des ateliers de production alimentaire. / Environmental hydration fluctuations influence microorganism viability and activity. The air relative humidity (RH) is a potentially effective parameter to control the development and the persistence of pathogenic microorganisms. However, efficiency of this parameter remains not well characterized compared to others environmental factors such as pH or temperature. Drying is the final step of cleaning and disinfection processes used in the food industry. However, if this process is empirically used, it could also be used to improve the decontamination of surfaces in premises and reduce the persistence of microorganisms. Despite cleaning and disinfection, Listeria monocytogenes is commonly found in the food industry and persists during long periods. Thus, the main objective of this thesis is to evaluate and understand the impact of hydric fluctuations on L. monocytogenes survival to optimize its destruction on a surface.First, thirty L. monocytogenes strains, isolated from different food processing environment and belonging to different serotypes and levels of virulence, were exposed to hyperosmotic stress and drying process. Differences in resistances among the strains were analyzed and four strains with different resistance to hydric stress were selected to continue this study.To define the most lethal hydric fluctuation conditions for L. monocytogenes strains, various parameters, such as the dehydration kinetic, relative humidity level, the rehydration kinetic, the application of successive dehydration and rehydration cycles and drying medium, have been studied.Finally, cellular mechanisms inducing the cell death during hydric fluctuations were investigated by Fourier transform infrared spectroscopy, atomic force microscopy, and flow cytometry and anaerobic drying. These different methods revealed that mechanical and structural stresses are primarily responsible for the death of L. monocytogenes.This work demonstrates that the control of RH level and variation is an effective means for the destruction of L. monocytogenes and offers real perspectives to improve hygiene in food production premises.
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Caractérisation d'un phosphorelais multiple de type histidine-aspartate dans la transduction du signal de la contrainte osmotique chez le peuplier : mécanismes de régulation du fonctionnement d'un régulateur de réponse de type-B à l'échelle moléculaire / Characterization oft he multistep His-to-Asp phosphorelay system in the osmosensing pathway in poplar : regulatory mechanisms at the molecular scale of a B-type response regulator functionBertheau, Lucie 19 December 2013 (has links)
Les relais de phosphorylation de type histidine/aspartate constituent des voies de signalisation impliquées dans la perception et la transduction des signaux jusqu’à la mise en place de réponses spécifiques. Ils mettent en jeu un récepteur ou Histidine aspartate Kinase (HK), des protéines navettes en charge de la transmission du phosphate (HPt) et des Régulateurs de Réponse (RR). L’implication d’un tel système dans la transduction du signal de la contrainte osmotique est avérée chez la levure et fortement suspectée chez Arabidopsis. Ce travail de thèse visait d’une part à caractériser l’implication de cette voie de transduction de la contrainte osmotique chez le peuplier, avec l’identification de partenaires HPt et RR en aval du récepteur HK1 et d’autre part à caractériser le mode de fonctionnement d’un RR de type-B. HK1, un osmosenseur membranaire détecterait le signal et le transmettrait à trois HPt préférentielles. De plus, un partenariat d’interaction se dégagerait entre ces trois HPt et certains RR-B. La régulation transcriptionnelle observée lors d’une contrainte osmotique pour deux des représentants des RR-B témoigne d’une possible implication de ces RR dans cette voie. Ces protéines sont des facteurs de transcription dont la fonction a été confirmée in planta pour l’un d’entre eux. La dimérisation du domaine receveur du RR et son interaction avec le domaine de fixation à l’ADN ou domaine GARP apparaissent comme des points de contrôle clés dans la régulation de l’activité effectrice des RR-B. De plus, la capacité d’un RR-B à se fixer sur ses motifs de reconnaissance (boîtes AGAT) a pu être vérifiée in vitro et la présence de ces séquences a d’ailleurs été retrouvée dans des gènes régulés par la contrainte osmotique. Ce travail prospectif ouvre des perspectives concernant l’implication des RR-B dans la voie de transduction du signal de la contrainte osmotique, et propose notamment des mécanismes fins pour l’élaboration d’une réponse hautement spécifique. / Multistep His-to-Asp phosphorelay systems are signaling pathways devoted to signal perception and transduction for establishment of specific responses. These systems are composed of three successive partners: Histidine-aspartate Kinases (HKs), Histidine-containing Phosphotransfer proteins (HPts), and Response Regulators (RRs). One of the best characterized corresponding systems is the osmo-responsive pathway in yeast. Such systems are also suspected in Arabidopsis. This work aimed to characterize the involvement of an osmosensing pathway in Populus by identifying HPt and RR elements downstream of HK1 and to reveal the underlying mechanisms for the activity of a RR-B. HK1, membrane osmosensor, is expected to be responsible for signal detection and propagation by triggering the activation of three preferential HPt. Furthermore, an interacting partnership between those HPts and particular B-type RRs was observed. Two of them appear to be regulated by an osmotic stress, suggesting their possible involvement in this pathway. The B-type RR members, the final output elements of the pathway, act as transcription factors, as shown for at least for one of them in planta. Taken together, the dimerization of the RR receiver domain and its interaction with its DNA binding domain (GARP), are likely key checkpoints in the regulation of RR-B activity. Besides, the ability of one RR-B to bind its cognate specific DNA sequences (AGAT boxes) was confirmed in vitro and those were found in promoters of osmotic response genes. This work opens up prospects for the involvement of RR-B in the osmotic stress signaling pathway and suggests mechanisms tuning induction of specific responses.
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Division et élongation cellulaire dans l'apex de la racine : diversité de réponses au déficit hydrique / Cell division and cell elongation in the growing root apex : diversity of drought-induced responsesBizet, François 10 December 2014 (has links)
La capacité d’une plante à réguler sa croissance racinaire est une composante importante de l’acclimatation aux stress environnementaux. A l’échelle cellulaire, cette régulation est effectuée via le contrôle de la division et de l’élongation des cellules mais les rôles respectifs de chaque processus et leurs interactions sont peu connus. Notamment, l’activité de production de cellules du méristème apical racinaire (RAM) est trop souvent négligée. Dans cette thèse, l’analyse spatiale de la croissance le long de l’apex racinaire et l’analyse temporelle des trajectoires de croissance des cellules ont été couplées pour comprendre les liens existants entre division et élongation cellulaire. Pour cela, j’ai développé un système de phénotypage de la croissance à haute résolution spatio-temporelle qui a été appliqué à l’étude de racines d’un peuplier euraméricain (Populus deltoides × Populus nigra) en réponse à différents stress (stress osmotique, impédance mécanique). Une forte variabilité du taux de croissance racinaire entre individus ainsi que des variations individuelles cycliques de la croissance ont été observées malgré des conditions environnementales contrôlées. L’utilisation de cette variabilité couplée à la quantification de l’activité du RAM a mis en évidence l’importance du taux de production de cellules pour soutenir la croissance racinaire. Ces travaux analysent une nouvelle échelle de variations spatiales et temporelles de la croissance peu prise en compte jusqu’à présent. Hautement applicable à d’autres questions scientifiques, l’analyse du devenir des cellules une fois sortie du RAM est également discutée pour des conditions de croissance non stables / Regulation of root growth is a crucial capacity of plants for acclimatization to environmental stresses. At cell scale, this regulation is controlled through cell division and cell elongation but respective importance of these processes and interactions between them are still poorly known. Notably, the cell production activity of the root apical meristem (RAM) is often excluded. During this thesis, spatial analyses of growth along the root apex were coupled with temporal analyses of cell trajectories in order to decipher the links between cell division and cell elongation. This required the setup of a system for phenotyping root growth at a high spatiotemporal resolution which was applied to study the growth of roots from an euramerican poplar (Populus deltoides × Populus nigra) in response to different environmental stresses (osmotic stress or mechanical impedance). An important variability of root growth rate between individuals as well as individual cyclic variations of growth along time were observed despite tightly controlled environmental conditions. Use of this variability coupled with quantification of the RAM activity led us to a better understanding of the importance of the cell production rate for sustaining root growth. This work analyses a new spatiotemporal scale of growth variability poorly considered. Widely applicable to others scientific questioning, temporal analyses of cell fate once produced in the RAM is also discussed for non-steady growth conditions
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Metabolická a biofyzikální charakterizace bakteriálních buněk schopných akumulace PHA / Metabolic and biophysical characterization of bacterial cells capable of PHA accumulationSlaninová, Eva January 2021 (has links)
This thesis deals with the characterization of bacterial cells capable of polyhydroxyalkanoates (PHA) accumulation. The dissertation thesis is written in the form of a discussed published publications which are attached to the thesis as appendixes. The work develops a study of the current topic of the protective functions of PHA and clarifies protective mechanisms against selected stressors. Firstly, we focused on the protective effects of PHA granules against UV radiation and osmotic stress, specifically hypotonic conditions. In the case of UV exposition, the cells protected themselves by scattering UV radiation on the intracellular granules protecting especially nucleoid. When exposed to osmotic stress, the amorphous state of PHA granules is very important since it is capable of stabilization of cell membranes under hypertonic stress, afterwards, bacterial cells can maintain their integrity during the subsequent hypotonic challenge. In general, the amorphous state of PHA granules is key to ensure the proper biological functions of PHA whether as storage or protective polymer. Therefore, in the next part of this work, we focused on the core of the stabilization mechanism that protects native PHA granules from crystallization and thus the intracellular polymer maintains in a thermodynamically unfavorable amorphous phase state. Based on experimental work, we applied selected stresses because we proposed a new model of stabilization of the amorphous state of PHA granules in vivo. It consists of two mechanisms, where small volumes of PHA granules reduce the rates of crystallization and at the same time the water present in the granules plays the role of a low molecular plasticizer. Due to the metabolic apparatus of bacterial cells, PHA are simultaneously synthesized and degraded which leads to an increment of intracellular concentration of monomers that also figure in the protective effect of PHA. In this context, we aimed at the description of the mechanism of cryoprotective effects of 3-hydroxybutyrate, the monomer of the most common of PHA, poly(3-hydroxybutyrate). Hence, we constructed an equilibrium and non-equilibrium phase diagram of the 3HB-water system to prove that 3HB is a very effective cryoprotectant. This fundamental understanding of the protective properties of PHA monomers could be also used in the food industry or cryopreservation of biological samples.
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