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Molecular studies on plants to enhance their stress toleranceHelaly, Alaa El-din A. January 2004 (has links)
Environmental stresses such as drought, high salt and low temperature affect plant growth and decrease crop productivity extremely. It is important to improve stress tolerance of the crop plant to increase crop yield under stress conditions. The Arabidopsis thaliana salt tolerance 1 gene (AtSTO1) was originally identified by Lippuner et al., (1996). In this study around 27 members of STO-like proteins were identified in Arabidopsis thaliana, rice and other plant species. The STO proteins have two consensus motifs (CCADEAAL and FCV(L)EDRA). The STO family members can be regarded as a distinct class of C2C2 proteins considering their low sequence similarity to other GATA like proteins and poor conservation in the C-terminus. AtSTO1 was found to be induced by salt, cold and drought in leaves and roots of 4-week-old Arabidopsis thaliana wild-type plants. The expression of AtSTO1 under salt and cold stress was more pronounced in roots than in leaves. The data provided here revealed that the AtSTO1 protein is localized in the nucleus. The observation that AtSTO1 localizes in the nucleus is consistent with its proposed function as a transcription factor. AtSTO1-dependent phenotypes were observed when plant were grown at 50 mM NaCl on agar plates. Leaves of AtSTO1 overexpression lines were bigger with dark green coloration, whereas stunted growth and yellowish leaves were observed in wild-type and RNAi plants. Also, the AtSTO1 overexpression plants when exposed to long-term cold stress had a red leaf coloration which was much stronger than in wild-type and RNAi lines. Growth of AtSTO1 overexpression lines in long term under salt and cold stress was always associated with long roots which was more pronounced than in wild-type and RNAi lines. <br><br>Proline accumulation increased more strongly in leaves and roots of AtSTO1 overexpression lines than in tissues of wild-type and RNAi lines when treated with 200 mM NaCl, exposed to cold stress or when watering was prevented for one day or two weeks. Also, soluble sugar content increased to higher levels under salt, cold and drought stress in AtSTO1 overexpression lines when compared to wild-type and RNAi lines. The increase in soluble sugar content was detected in AtSTO1 overexpression lines after long-term (2 weeks) growth of plants under these stresses. Anthocyanins accumulated in leaves of AtSTO1 overexpression lines when exposed to long term salt stress (200 mM NaCl for 2 weeks) or to 4°C for 6 and 8 weeks. Also, anthocyanin content was increased in flowers of AtSTO1 overexpression plants kept at 4°C for 8 weeks. Taken together these data indicate that overexpression of AtSTO1 enhances abiotic stress toleranc via a more pronounced accumulation of compatible solutes under stress. / Umweltstress wie zum Beispiel Trockenheit, Salz und niedrige Temperaturen beeinflussen in erheblichem Maße das pflanzliche Wachstum und haben einen negativen Einfluss auf Ertragsleistungen. Untersuchungen zur Verbesserung der Stresstoleranz und des Ernteertrages von Kulturpflanzen sind daher von großer Bedeutung. Pflanzen passen sich Umweltveränderungen durch physiologische und entwicklungsabhängige Prozesse an. In den letzten Jahren wurden zahlreiche Gene identifiziert, die als Reaktion von Umweltstress in der Pflanze aktiviert werden. Salzstress bewirkt negative Veränderungen des pflanzlichen Wasserstatus, die auf veränderte K+/Na+-Verhältnisse und Na+- und Cl--Konzentrationen zurückzuführen sind. Neben Veränderungen in der Bewässerungspraxis spielt heute die Züchtung salztoleranter Pflanzen und die biotechnologische Verbesserung von Kulturpflanzen eine zunehmend wichtige Rolle.<br><br>
Im Rahmen der Doktorarbeit wurde ein bisher wenig untersuchtes Gen, welches AtSTO1 genannt wird, anhand der Modellpflanze Ackerschmalwand (lat. Arabidopsis thaliana) analysiert. Das Gen wird durch Umweltstress, insbesondere durch Kälte, aktiviert. Es wurden gentechnisch veränderte Pflanzen hergestellt, die eine verstärkte Aktivität des AtSTO1-Gens aufweisen. Diese Pflanzen zeigten bei Vorliegen von hohen Salzkonzentration ein im Vergleich zu unveränderten Pflanzen verbessertes Wachstum. Diese Stimulation des pflanzlichen Wachstums unter Salzstress-Bedingungen war begleitet von einer vermehrten Bildung bestimmter chemischer Substanzen, die die Pflanzen in die Lage versetzen, mit dem Stress besser fertig zu werden. Dazu gehört beispielsweise die Aminosäure Prolin, deren Konzentration in den gentechnisch veränderten Pflanzen nach Stressbehandlung stärker erhöht ist, als in den unveränderten Kontrollpflanzen oder in Pflanzen, die eine reduzierte AtSTO1-Aktivität besaßen. Auch die Gehalte einiger Zucker waren in den gentechnisch modifizierten Pflanzen unter Stress erhöht. Insgesamt hat sich gezeigt, dass AtSTO1 eine wichtige Aufgabe in der Stressantwort spielt. Weitere Untersuchungen sollten es ermöglichen, auch bei Kulturpflanzen, wie etwa Reis, die Stresstoleranz durch Veränderung verwandter Gene zu erhöhen.<br><br>
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vollständiger Name des Autors: Abdallah Helaly, Alaa El-Din
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Einsatz der Fernerkundung in der Ökologie : Beispiele, Synergien und mögliche VerknüpfungenJeltsch, Florian, Schröder, Boris, Blaum, Niels, Badeck, Franz January 2006 (has links)
Interdisziplinäres Zentrum für Musterdynamik und Angewandte Fernerkundung<br>
Workshop vom 9. - 10. Februar 2006
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Nicht-invasive Methoden in der Bodenlandschaftsforschung : Konzeption und ProjekteSommer, Michael January 2006 (has links)
Der Referent ist Leiter des Institutes für Bodenlandschaftsforschung am Leibniz-Zentrum für Agrarlandschaftsforschung (ZALF) e. V. in Müncheberg.
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Interdisziplinäres Zentrum für Musterdynamik und Angewandte Fernerkundung<br>
Workshop vom 9. - 10. Februar 2006
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From satellite imagery to soil-plant interactions : integrating disciplines and scales in process based simulation models ; [Poster]Popp, Alexander, Blaum, Niels, Domptail, Stephanie, Herpel, Nicole, Gröngröft, Alexander, Hoffman, T. T., Jürgens, Norbert, Milton, Sue, Nuppenau, Ernst-August, Rossmanith, Eva, Schmidt, Michael, Vogel, Melanie, Vohland, Katrin, Jeltsch, Florian January 2006 (has links)
Decisions for the conservation of biodiversity and sustainable management of natural resources are typically related to large scales, i.e. the landscape level. However, understanding and predicting the effects of land use and climate change on scales relevant for decision-making requires to include both, large scale vegetation dynamics and small scale processes, such as soil-plant interactions. Integrating the results of multiple BIOTA subprojects enabled us to include necessary data of soil science, botany, socio-economics and remote sensing into a high resolution, process-based and spatially-explicit model. Using an example from a sustainably-used research farm and a communally used
and degraded farming area in semiarid southern Namibia we show the power of simulation models as a tool to integrate processes across disciplines and scales.
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Interdisziplinäres Zentrum für Musterdynamik und Angewandte Fernerkundung<br>
Workshop vom 9. - 10. Februar 2006.
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Scaling up local population dynamics to regional scales : an integrated approach : [Poster]Rossmanith, Eva, Blaum, Niels, Keil, Manfred, Langerwisch, F., Meyer, Jork, Popp, Alexander, Schmidt, Michael, Schultz, Christoph, Schwager, Monika, Vogel, Melanie, Wasiolka, Bernd, Jeltsch, Florian January 2006 (has links)
In semi-arid savannas, unsustainable land use can lead to degradation of entire landscapes, e.g. in the form of shrub encroachment. This leads to habitat loss and is assumed to reduce species diversity. In BIOTA phase 1, we investigated the effects of land use on population dynamics on farm scale. In phase 2 we scale up to consider the whole regional landscape consisting of a diverse mosaic of farms with different historic and present land use intensities. This mosaic
creates a heterogeneous, dynamic pattern of structural diversity at a large spatial scale. Understanding how the region-wide dynamic land use pattern affects the abundance of animal and plant species requires the integration of processes on large as well as on small spatial scales. In our multidisciplinary
approach, we integrate information from remote sensing, genetic and ecological field studies as well as small scale process models in a dynamic region-wide simulation tool.
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Interdisziplinäres Zentrum für Musterdynamik und Angewandte Fernerkundung<br>
Workshop vom 9. - 10. Februar 2006.
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Differential effects of human anaphylatoxin C3a on glucose output and flow in rat liver during orthograde and retrograde perfusion : the periportal scavenger cell hypothesisPüschel, Gerhard P., Oppermann, Martin, Neuschäfer-Rube, Frank, Götze, Otto, Jungermann, Kurt January 1991 (has links)
1) During orthograde perfusion of rat liver human anaphylatoxin C3a caused an increase in glucose and lactate output and reduction of flow. These effects could be enhanced nearly twofold by co-infusion of the carboxypeptidase inhibitor MERGETPA, which reduced inactivation of C3a to C3adesArg. 2) During retrograde perfusion C3a caused a two- to threefold larger increase in glucose and lactate output and reduction of flow than in orthograde perfusions. These actions tended to be slightly enhanced by MERGETPA. 3) The elimination of C3a plus C3adesArg immunoreactivity during a single liver passage was around 67%, irrespective of the perfusion direction and the presence of the carboxypeptidase inhibitor MERGETPA; however, less C3adesArg and more intact C3a appeared in the perfusate in the presence of MERGETPA in orthograde and retrogade perfusions
It is concluded that rat liver inactivated human anaphylatoxin C3a by conversion to C3adesArg and moreover eliminated it by an additional process. The inactivation to C3adesArg seemed to be located predominantly in the proximal periportal region of the liver sinusoid, since C3a was less effective in orthograde perfusions, when C3a first passed the proximal periportal region before reaching the predominant mass of parenchyma as its site of action, than in retrograde perfusions, when it first passed the perivenous area. These data may be evidence for a periportal scavenger mechanism, by which the liver protects itself from systemically released mediators of inflammation that interfere with the local regulation of liver metabolism and hemodynamics.
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Aminergic signal transduction in invertebrates : focus on tyramine and octopamine receptorsBlenau, Wolfgang, Baumann, Arnd January 2003 (has links)
Electro-chemical signal transduction is the basis of communication between n eurons and their target cells. An important group of neuroactive substances that are released by action potentials from neurons are the biogenic amines. These a re small organic molecules that bind to specific receptors located in the target cell membrane. Once activated these receptors cause changes in the intracellula r concentration of second messengers, i.e. cyclic nucleotides, phosphoinositides / or Ca2+, leading to slow but long-lasting cellular responses. Biochemical, pha rmacological, physiological, and molecular biological approaches have unequivoca lly shown that biogenic amines are important regulators of cellular function in both vertebrates and invertebrates. In this review, we will concentrate on the p roperties of two biogenic amines and their receptors that were originally identi fied in invertebrates: tyramine and octopamine.
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Functional classification of genome-scale metabolic networksEbenhöh, Oliver, Handorf, Thomas January 2009 (has links)
We propose two strategies to characterize organisms with respect to their metabolic capabilities. The first, investigative, strategy describes metabolic networks in terms of their capability to utilize different carbon sources, resulting in the concept of carbon utilization spectra. In the second, predictive, approach minimal nutrient combinations are predicted from the structure of the metabolic networks, resulting in a characteristic nutrient profile. Both strategies allow for a quantification of functional properties of metabolic networks, allowing to identify groups of organisms with similar functions. We investigate whether the functional description reflects the typical environments of the corresponding organisms by dividing all species into disjoint groups based on whether they are aerotolerant and/or photosynthetic. Despite differences in the underlying concepts, both measures display some common features. Closely related organisms often display a similar functional behavior and in both cases the functional measures appear to correlate with the considered classes of environments. Carbon utilization spectra and nutrient profiles are complementary approaches toward a functional classification of organism-wide metabolic networks. Both approaches contain different information and thus yield different clusterings, which are both different from the classical taxonomy of organisms. Our results indicate that a sophisticated combination of our approaches will allow for a quantitative description reflecting the lifestyles of organisms.
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Generic algorithm to predict the speed of translational elongation : implications for protein biogenesisZhang, Gong, Ignatova, Zoya January 2009 (has links)
Synonymous codon usage and variations in the level of isoaccepting tRNAs exert a powerful selective force on translation fidelity. We have developed an algorithm to evaluate the relative rate of translation which allows large-scale comparisons of the non-uniform translation rate on the protein biogenesis. Using the complete genomes of Escherichia coli and Bacillus subtilis we show that stretches of codons pairing to minor tRNAs form putative sites to locally attenuate translation; thereby the tendency is to cluster in near proximity whereas long contiguous stretches of slow-translating triplets are avoided. The presence of slow-translating segments positively correlates with the protein length irrespective of the protein abundance. The slow-translating clusters are predominantly located down-stream of the domain boundaries presumably to fine-tune translational accuracy with the folding fidelity of multidomain proteins. Translation attenuation patterns at highly structurally and functionally conserved domains are preserved across the species suggesting a concerted selective pressure on the codon selection and species-specific tRNA abundance in these regions.
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Site directed mutagenesis of amino acid residues at the active site of mouse aldehyde oxidase AOX1Schumann, Silvia, Terao, Mineko, Garattini, Enrico, Saggu, Miguel, Lendzian, Friedhelm, Hildebrandt, Peter, Leimkühler, Silke January 2009 (has links)
Mouse aldehyde oxidase (mAOX1) forms a homodimer and belongs to the xanthine oxidase family of molybdoenzymes which are characterized by an essential equatorial sulfur ligand coordinated to the molybdenum atom. In general, mammalian AOs are characterized by broad substrate specificity and an yet obscure physiological function. To define the physiological substrates and the enzymatic characteristics of mAOX1, we established a system for the heterologous expression of the enzyme in Eschericia coli. The recombinant protein showed spectral features and a range of substrate specificity similar to the native protein purified from mouse liver. The EPR data of recombinant mAOX1 were similar to those of AO from rabbit liver, but differed from the homologous xanthine oxidoreductase enzymes. Site-directed mutagenesis of amino acids Val806, Met884 and Glu1265 at the active site resulted in a drastic decrease in the oxidation of aldehydes with no increase in the oxidation of purine substrates. The double mutant V806E/M884R and the single mutant E1265Q were catalytically inactive enzymes regardless of the aldehyde or purine substrates tested. Our results show that only Glu1265 is essential for the catalytic activity by initiating the base-catalyzed mechanism of substrate oxidation. In addition, it is concluded that the substrate specificity of molybdo-flavoenzymes is more complex and not only defined by the three
characterized amino acids in the active site.
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