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The role of compatible solutes in the adaptation and survival of Escherichia coliWelsh, David T. January 1992 (has links)
No description available.
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Regulation of osmoadaptation in Streptomyces coelicolor A3(2)Parkes, Lindsay Jane January 2012 (has links)
No description available.
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Investigating the Role of Salinity in the Thermotolerance of CoralsGegner, Hagen 11 1900 (has links)
Coral reefs are in global decline due to ocean warming and ocean acidification. While
these stressors are commonly studied in climate change predictions, salinity, although
being an important environmental factor, is not well understood. The response of the
coral holobiont (the association of the coral host, its algal endosymbiont and a suit of
other microbes) to changes in salinity and the contribution of each holobiont
compartment underlying the necessary osmoadaptation remain especially elusive.
Interestingly, we find some of the most thermotolerant corals in some of the most saline
seas, e.g. the Red Sea and the Persian Arabian Gulf. This observation sparked the
hypothesis of a link between osmoadaptation and coral thermotolerance. Here, we set out
to elucidate the putative effects of high salinity on conveying thermotolerance and
thereby a possible link to bleaching in the context of the coral holobiont. For this, we
conducted a series of heat stress experiments at different salinities in the coral model
Aiptasia and subsequently validated our findings in corals from the central Red Sea. We
confirm a role of osmoadaptation in increased thermotolerance and reduced bleaching in
Aiptasia and Red Sea corals. This salinity-conveyed thermotolerance was characterized
by a reduction in algal endosymbiont loss, photosystem damage and leakage of damaging
reactive oxygen species (ROS) in high salinity. Further analysis of the osmoadaptation
response using targeted GC-MS uncovered high levels of the sugar floridoside at high
salinity only in holobionts that show the salinity-conveyed thermotolerance. The increase
of floridoside, an osmolyte capable of scavenging ROS, and the concurrent reduction of
ROS argues for a mechanistic link of increased thermotolerance and reduced bleaching in
high salinities. In addition, the restructuring of the microbiome at high salinity that
aligned with the difference in thermotolerance in Aiptasia may be indicative of a
microbial contribution towards a more beneficial holobiont composition. Hence,
emphasizing the potential cumulative contribution of each holobiont compartment during
stress-resilience, as well as highlighting the overall role of osmoadaptation in the
thermotolerance of corals.
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Analysis of the Role of Rhodobacter sphaeroides CrpO in Tolerance to NaClRetamal, Susana B. 12 November 2010 (has links)
No description available.
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Análise evolutiva das subunidades ligadoras de substrato presentes no sistema de osmoproteção em procariotosCoutinho, Tarcisio José Domingos 13 December 2012 (has links)
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Previous issue date: 2012-12-13 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Substrate-binding subunits are very important components of the solute importation system, known as the osmoprotectant system, which consists of a membrane protein belonging to the
ABC superfamily. These molecules recognize specific substrates that have different physiological roles in prokaryotes, i.e. roles that contribute to the survival of these organisms in environments with high concentrations of salt. Using MEGA 5.05 software, this study performed a phylogenetic analysis of 431 nucleotide sequences of these subunits, orthologous to each other, collected from the database contained on the website
http://www.genome.jp/kegg/. As a result of this analysis, phylogenetic trees were generated that clearly demonstrated that there was a horizontal transfer of some genes due to the sharing by different organisms. Also, two probable ancestral sequences were generated that showed homology with permeases that transport choline, glycine betaine and carnitine, which are trimethylamines currently present in various prokaryotes. Therefore, this system probably arose in prokaryotic organisms with the basic function of capturing nutrients, and by performing this basal function of being shared with other organisms, was fixed to the genome. However, because of the diversification of habitats by the prokaryotes, this system contributed decisively to the adaptation of these organisms to different environments, especially environments that had a high salt concentration; thus, acting and being currently characterized as a system of osmoprotection. / As subunidades ligadoras de substrato são componentes muito importantes do sistema de importação de soluto conhecido, como sistema de osmoproteção, que consiste em uma proteína de membrana pertencente à superfamlía ABC. Estas moléculas reconhecem substratos específicos que apresentam papéis fisiológicos diversos em procariotos, incluindo a colaboração para a sobrevivência destes organismos em ambientes com elevada concentração de sal. Utilizando o software MEGA 5.05, foi realizada uma análise filogenética de 431 sequências nucleotídicas destas subunidades, ortólogas entre si, coletadas a partir do banco de dados contido no site ttp://www.genome.jp/kegg/. Como resultado desta análise, foram geradas árvores filogenéticas que demonstraram claramente que houve a transferência horizontal de alguns dos genes devido ao ompartilhamento por organismos diferentes. Foram geradas também duas prováveis sequências ancestrais que apresentam homologia com permeases que transportam colina, glicina betaína e carnitina, que são aminas trimetiladas, presentes atualmente em diversos procariotos. Portanto, este sistema provavelmente surgiu em organismos procarióticos com a função básica de captura de nutrientes e por desempenhar esta função basal, ao ser compartilhado com outros organismos, foi fixado aos genomas. No entanto, a partir da diversificação de habitats, por parte dos procariotos, este sistema colaborou de forma decisiva para a adaptação destes organismos aos mais diversos ambientes, incluindo, especialmente os ambientes que apresentavam uma elevada concentração de sal, atuando e sendo caracterizado atualmente como um sistema de osmoproteção.
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Modeling and analysis of yeast osmoadaptation in cellular contextKühn, Clemens 13 January 2011 (has links)
Mathematische Modellierung ist ein wichtiges Werkzeug biologischer Forschung geworden, was sich in der Entstehung von Systembiologie widerspiegelt. Eine erfolgreiche Anwendung mathematischer Methoden auf biologische Fragen erfordert die Zusammenarbeit zwischen experimentell und theoretisch arbeitenden Wissenschaftlern, auch um sicherzustellen, dass die Biologie im Modell adäquat dargestellt wird. Ich präsentiere hier zwei Untersuchungen zur Anpassung von Saccharomyces cere- visae an hyperosmotische Bedingungen: Eine biologisch detailgetreue Beschreibung der Signaltransduktion zur Aktivierung von Hog1 und ein Model, das Anpassung an osmotischen Stress in zellulärem Zusammenhang beschreibt. Die Studie zur Osmoadaptation in zellulären Kontext impliziert, dass Hog1 und Fps1, zwei wichtige Bausteine dieses Adaptationsvorgangs, miteinander in Wechselwirkung treten und dies zur Anpassung beiträgt. Dieses Ergebnis wird durch die Integration verschiedener Hefestämme mit zum Teil gegensätzlich wirkenden Mutationen ermöglicht. Diese Studie offenbart des weiteren, dass die Rolle von Glycerol in der langfristigen Anpassung bisher überschätzt wurde. Die hier präsentierten Ergebnisse zeigen, dass Glycerol als ’Not’-Osmolyt eingesetzt wird und andere Stoffe, z.B. Trehalose, erheblich zu dauerhafter Osmoadaptation beitragen. Durch die Betrachtung des Zustands mehrerer zellulärer Mechansimen wird deutlich, dass Osmoadaptation stark vom Kontext abhängig ist und nicht perfekt ist. Der Preis schlägt sich in langsamerem Wachstum nieder. Zeitabhängige Sensitivitätsanalyse des Modells untermauert diese Hypothese. Die gewählte Perspektive ermöglicht die Betrachtung von intrazellulären Signaltransduktionskomponenten, Metaboliten und des Wachstums. Der Vergleich mit einer Studie, die Anpassung an osmotischen Stress als perfekte Adaptation auf Grund eines vereinfachten Modells beschreibt, hebt die Rolle der gewählten Perspektive zum Verständnis biologischer Systeme hervor. / Mathematical modeling has become an important tool in biology, reflected in the emergence of systems biology. Successful application of mathematical methods to biological questions requires collaboration of experimental and theoretical scientists to identify and study the problem at hand and to ensure that biology and model match. In this thesis, I present two studies on adaptation to hyperosmotic conditions in the yeast Saccharomyces cerevisae: A biologically faithful description of the signaling pathways activating Hog1 and a model integrating the effects of Hog1-activity and cellular metabolism, describing osmoadaptation in cellular context. The study of osmoadaptation in cellular context suggests that Hog1 and Fps1, two crucial components of adaptation, interact upon hyperosmotic stress. This finding is facilitated by incorporating multiple strains with mutations leading to partly oppositional phenotypes. This study further reveals that the role of glycerol in long term adaptation has been overestimated so far. According to the results presented here, glycerol is utilized as an ’emergency’ osmoprotectant and other compounds, e.g. trehalose, contribute significantly to osmoadaptation. Accounting for the state of multiple cellular mechanisms (Hog1-activity, glycolysis, growth) shows that adaptation to hyperosmotic stress and the impact of the individual mechanisms of adaptation is context dependent and that adaptation to sustained osmostress is not perfect, the expense reflected in a reduced growth rate in hyperosmotic medium. Time-dependent sensitivity analysis supports the notion of context. The perspective chosen allows observations on intracellular signaling components, metabolites and growth speed. Comparison with a study that describes osmoadaptation as perfect adaptation highlights the role of this perspective for the conclusions drawn, thus emphasizing the importance of an integrative perspective for understanding biological systems.
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Vliv vyřazení genu yxkO při adaptaci na enviromentální stres u rodu Bacillus. / Effect of knock out of yxkO gene on environmental stress adaptation in genus BacillusTkadlec, Jan January 2011 (has links)
We have previously characterized a Bacillus subtilis mutant defective in growth and osmoadaptation under limited K+ concentrations. In this mutant, the yxkO gene encoding a putative ribokinase is disrupted. This gene is supposed to belong to the sigma B operon and its expression is induced after osmotic, heat and ethanol shock. In comparison to the wild type, this mutation causes pleiotropic changes in host phenotype. In addition to its osmosensitivity, the mutant differs in cell shape, motility and ability to produce endospores. Our goal was to focus on manifestations of the mutation in the yxkO gene in other bacteria of the genus Bacillus. Using plasmid pMUTIN4 we have prepared mutants with disruptions of this gene derived from Bacillus amyloliquefaciens and Bacillus subtilis subsp. spizizenii strains differing in the yxkO surroundings and in the level of laboratory domestication. As in the previous study (with laboratory strain Bacillus subtilis 168) we demonstrate impaired ability of the mutant strain derived from Bacillus amyloliquefaciens to grow in potassium limitation and osmotic shock. We have studied this phenomenon at the level of the growth dynamics of the bacterial culture. We have also detected an increased sensitivity of the strain derived from Bacillus amyloliquefaciens to...
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Insights into a Novel Signaling Pathway that Determines Cell Fate in Response to Hyperosmotic StressFarabaugh, Kenneth Thomas, kt January 2019 (has links)
No description available.
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Análise proteômica de paracoccidioides sp. em condições de estresse osmótico / Proteomic analysis of paracoccidioides sp. under osmotic stressRodrigues, Leandro Nascimento da Silva 28 November 2014 (has links)
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Previous issue date: 2014-11-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The dimorphic fungus Paracoccidioides is the etiological agent of paracoccidioidomycosis, a systemic mycosis with high relevance for the public health in Brazil and other Latin American countries such as Colombia and Venezuela. Generally, microorganisms require responses to stress conditions to survive in response to environmental changes and pathogenic organisms, particularly, require an effective response even higher to react against host defences. Osmotic stress has been used as a model to study signal transduction and seems to cause many cellular adaptations, which include signal transduction pathways modification, protein expression alteration and cellular volume and size regulation. In this work we have evaluated the proteomic profile of yeast cells of Paracoccidioides sp. (Pb01) obtained in osmotic stress condition. Data describe an osmoadaptative response of this fungus when subjected to this treatment. Proteins involved in the synthesis of the cell wall components were modulated, evidencing a remodelling of the cell wall. In addition, it was also observed alterations on the energy metabolism, given that proteins of the pentose phosphate pathway were abundant while proteins of the glycolysis were less abundant under osmotic stress condition. In addition changes in amino acid metabolism were also observed; more clearly the degradation of amino acids such as leucine, isoleucine and valine was induced during osmotic stress. Hereupon, our study suggests that Paracoccidioides sp. (Pb01) present a vast osmoadaptative repertoire; comprising different proteins which act complementarily and that this response could be able to minimize the effects caused by osmotic stress. / O fungo dimórfico Paracoccidioides é o agente etiológico da paracoccidioidomicose, uma micose sistêmica com grande relevância na saúde pública no Brasil e em outros países da América Latina, como Colômbia e Venezuela. Microrganismos, em geral, requerem respostas às condições de estresse para sobreviver às mudanças ambientais e patógenos, em particular, necessitam de uma resposta efetiva ainda maior para reagir às defesas do hospedeiro. O estresse osmótico é usado como um modelo para estudos de transdução de sinais e parece causar muitas adaptações celulares, as quais incluem alterações nas vias de transdução de sinais, expressão de proteínas e regulação do volume e tamanho celulares. Neste trabalho foi avaliado o perfil proteômico das células leveduriformes de Paracoccidioides sp. (Pb01) obtidas sob condições de estresse osmótico. Os dados evidenciam uma resposta osmoadaptativa deste fungo, quando submetido a este tipo de estresse. Proteínas envolvidas na biossíntese de componentes de parede celular foram moduladas, evidenciando um remodelamento de parede. Também foram observadas prováveis alterações no metabolismo de energia, tendo em vista que proteínas da via das pentoses fosfato mostraram-se abundantes, enquanto proteínas da via glicolítica mostraram-se em menor abundância frente às condições de estresse osmótico. Adicionalmente alterações no metabolismo de aminoácidos também foram observadas; de forma mais evidente a degradação de aminoácidos como leucina, valina e isoleucina foi induzida durante o estresse osmótico. Neste sentido, nosso estudo sugere que Paracoccidioides sp. (Pb01) possui um amplo repertório osmoadaptativo, composto por diferentes proteínas que atuam de maneira complementar e que devem atuar promovendo a minimização dos efeitos causados pelo estresse osmótico.
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Phosphoproteomic study on osmotic shock in Saccharomyces cerevisiae over sub-minute and half- hour timescalesIsik, Seckin Sinan 12 1900 (has links)
No description available.
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