1000 resultados para Exakte Wissenschaften
Resumo:
This dissertation addresses the staminal lever mechanism of the genus Salvia. Various hypotheses referring to its purpose and function are tested and elucidated. The first hypothesis maintains that the lever is a mechanical selection mechanism which excludes weak pollinators from the flower. This hypothesis is refuted and the respective results of force measurements and morphological investigations are presented, statistically evaluated and discussed. The force measurements and morphological investigations were conducted on the staminal levers and flowers of 8 bee pollinated (melittophilous) and 6 bird pollinated (ornithophilous) species. For comparison a ninth melittophilous species that lacks the staminal lever was investigated. In this species the force measurements were conducted on floral structures that were suspected to hinder a flower visitor. The hypotheses, which state that the staminal lever is a tool for pollen portioning and reduces the risk of pollen loss as well as hybridisation due to its ability to perform a repeatable, accurate and species-specific pollen placement on a wide range of diverse pollinators, are confirmed. Investigations with respect to pollen portioning were carried out on 13 sages. The lever mechanism can be released several times in a row, while the pollen sacs leave a dosed pollen portion on a well defined spot on the pollinator‘s body. Pollen placement was investigated for 12 sages. In sympatric sages, lever length and the area of pollen placement are of particular interest. A shared pollinator bears species-specific areas of pollen placement for different sages. The accurate pollen placement ensures an efficient pollination. However, the question of the functionality of the lever mechanism can not be answered with absolute certainty. The lever‘s backswing is not caused by the adaxial lever arm; the adaxial lever arm is too light and too short to be an adequate counterweight to the abaxial lever arm. Therefore, the adaxial lever arm can not pull the abaxial lever arm to return it to its neutral position. But there are indications of a cellular mainspring in the filament. According to the current state of knowledge, this is the most plausible explanation for the lever's backswing, but further histological investigations on the joint of the lever mechanism are necessary to confirm this assumption.
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We present new algorithms to approximate the discrete volume of a polyhedral geometry using boxes defined by the US standard SAE J1100. This problem is NP-hard and has its main application in the car design process. The algorithms produce maximum weighted independent sets on a so-called conflict graph for a discretisation of the geometry. We present a framework to eliminate a large portion of the vertices of a graph without affecting the quality of the optimal solution. Using this framework we are also able to define the conflict graph without the use of a discretisation. For the solution of the maximum weighted independent set problem we designed an enumeration scheme which uses the restrictions of the SAE J1100 standard for an efficient upper bound computation. We evaluate the packing algorithms according to the solution quality compared to manually derived results. Finally, we compare our enumeration scheme to several other exact algorithms in terms of their runtime. Grid-based packings either tend to be not tight or have intersections between boxes. We therefore present an algorithm which can compute box packings with arbitrary placements and fixed orientations. In this algorithm we make use of approximate Minkowski Sums, computed by uniting many axis-oriented equal boxes. We developed an algorithm which computes the union of equal axis-oriented boxes efficiently. This algorithm also maintains the Minkowski Sums throughout the packing process. We also extend these algorithms for packing arbitrary objects in fixed orientations.
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Der kanonische Wnt Signalweg ist durch Regulation einer Vielzahl von Zielgenen in unterschiedliche Prozesse wie Entwicklung, Wachstum und Differenzierung involviert. Fehlregulation des Signalwegs kann zur Tumorentstehung führen. Die exakte Rolle des Wnt Signalwegs und seiner Zielgene in der karzinogenen Kaskade ist noch nicht genau bekannt. In dieser Arbeit sollte die Beteiligung der Wnt Zielgene c-MYC, CCND1 (kodiert Cyclin D1) und VEGF an der Karzinogenese untersucht werden. Um die Funktionen der Wnt Zielgene und ihre zellulären Effekte unabhängig voneinander untersuchen zu können, wurden die Mengen der entsprechenden Transkriptionsprodukte durch siRNA (short interfering RNA) gezielt verringert. Die Konsequenzen der Inaktivierung wurden in Kolon- und Zervixkarzinomzelllinien untersucht, wobei die zellulären Parameter Proliferation, Apoptose, Metabolismus sowie Migration und Adhäsion untersucht wurden. Dabei konnte beobachtet werden, dass der Wnt Signalweg mit seinen Zielgenen Cyclin D1 und c-MYC die Proliferation mit dem Energiemetabolismus von Tumorzellen verknüpft. Darüber hinaus konnte gezeigt werden, dass Cyclin D1 an der Regulation der zelluläre Migration und Adhäsion beteiligt ist, während VEGF die Apoptose abhängig vom zellulären Kontext inhibiert. Diese Ergebnisse liefern erste Hinweise auf die funktionelle Rolle der verschiedenen Zielgene im Prozess der Karzinogenese in Tumoren mit aktiviertem Wnt Signalweg. Damit ist diese Arbeit ein möglicher Ausgangspunkt für Studien mit dem Ziel der gezielten therapeutischen Beeinflussung des Wnt Signalwegs auf Ebene der Zielgene.
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The aim of the work was to study the correlation between the orientation and excited-state lifetimes of organic dyes close to dielectric interfaces. For this purpose, an experimental setup was designed and built, guiding the light through a prism in total internal reflection geometry. Fluorescence intensities and lifetimes for an ensemble of dye molecules were analyzed as a function of the excitation and detection polarizations. Working close to the total internal reflection angle, the differences between polarization combinations were enhanced. A classical electromagnetic model that assumes a chromophore as a couple of point-like electrical dipoles was developed. A numerical method to calculate the excitation and emission of dye molecules embedded in a multilayer system was implemented, by which full simulation of the time resolved fluorescence experiments was achieved. Free organic dyes and organic dyes covalently bound to polyelectrolyte chains were used. The polymer functionalization process avoided aggregation and provided control over the dyes position, within a few nanometers to the interface. Moreover, by varying the pH, the polymer chains could be deposited on different substrates with different conformations and the resulting fluorescence characteristics analyzed. Initially the fluorescence of organic dyes embedded in a polymer matrix was studied as a function of the distance between the fluorophores and the polymer-air interface. The non-radiative decay rate, vacuum decay rate and the relative angle between the excitation and emission dipoles of the chromophores could be determined. Different free organic dyes were deposited onto different dielectric spacers, as close as possible to the air-dielectric interface. Surprisingly, the fluorescence characteristics of dyes deposited onto polyelectrolyte layer were in good agreement with theoretical predictions of dyes in a polymer matrix, even when the layer was only 2 nm thick. When functionalized chains were deposited at low pH, on top of a polyelectrolyte spacer, the fluorescence had the characteristics of emitters embedded in a polymer matrix as well. Surface deposition at high pH showed an intermediate behaviour between emitters embedded in polymer and on top of the surface, in air. In general, for low pH values, the chains are deposited on a substrate in a train-like conformation. For high pH values, the chains are deposited in a loop-like conformation. As a consequence at low pH the functionalized polymer strongly interdigitates with the polyelectrolyte chains of the spacer, bringing most of the dyes inside the polymer. Thus, the fluorophores may experience the polymer as surrounding environment. On the other hand, for high pH values the dye-loaded chains adsorbed have a conformational arrangement of dense loops that extend away from the surface. Therefore many fluorophores experience the air as surrounding environment. Changing the spacer from polyelectrolyte to negatively charged silane produced contradictory results for lifetimes and intensities. The fluorescence intensities indicated the behaviour of emitters embedded in a polymer matrix, regardless of the pH value. On the other hand, for low pH values, the excited-state lifetimes showed that the emitters behaved as in air. For higher pH values, an intermediate behaviour between fluorophores located within and above of a dielectric film was observed. The poor agreement between theoretical and experimental data may be due to the simplified model utilized, by which the dipoles are assumed either in one side or in the other with respect to a geometrical air-dielectric interface. In the case when the dielectric film is constituted by the functionalized polymer chains themselves, reality is more complex and a different model may apply. Nevertheless, possible applications of the technique arise from a qualitative analysis.
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Diese Arbeit präsentiert Forschungsergebnisse der beiden wissenschaftlichen Projekte POLYSOA und OOMPH. Für das POLYSOA-Projekt, welches sich mit der Oligomerbildung in sekundären organischen Aerosolen befasst, wurden zwei Dicarbonylverbindungen bezüglich ihres Oligomerisationsverhaltens untersucht. Hierfür wurden zunächst verschiedene Herstellungsmethoden für die reinen, wasserfreien Monomere Glyoxal (Ethandial) und Methylglyoxal (2-Oxopropanal) erprobt. Diese wurden mit Reinstwasser umgesetzt und die Reaktionsprodukte massenspektrometrisch mittels Direktinfusion in ein ESI-MS untersucht. Es wurde bei den wässrigen Lösungen von Glyoxal eine starke Tendenz zur Oligomerbildung beobachtet. Die Zusammensetzung dieser Acetal-Oligomere wurde durch MS2-Experimente analysiert. Methylglyoxal bildete bei den durchgeführten Experimenten ebenfalls bei der Reaktion mit Wasser Oligomere. Zum Ausschluss, dass es sich bei den mittels ESI-MS gemessenen Oligomer-Ionen nicht um Ionenquellenartefakte handelte, wurde eine HPLC-Trennung vorgenommen. Diese Experimente ergaben, dass es sich nicht um Artefakte handelt. Als Teil des OOMPH-Projekts wurden mit einem Aerodyne-HRToF-AMS Messungen an Bord des französischem Forschungsschiffes RV Marion Dufresne durchgeführt. Um detaillierte Informationen über die hierbei im organischen Aerosol enthaltenen Moleküle zu erhalten wurde eine neue Methode entwickelt. Es wurde eine Ionenliste erstellt, die mögliche Fragment-Ionen sowie deren exakte Masse enthält. Reihen von homologen Ionen wurden in Gruppen zusammengefasst. Ein selbstentwickelter Algorithmus berechnet die Signalanteile der einzelnen Ionen aus der Ionenliste am Gesamtsignal. Die erhaltenen einzelnen Signalanteile wurden entsprechend den Ionengruppen zusammengefasst. Hieraus können Informationen über die im Aerosol enthaltenen Molekülbausteine erhalten werden. Im OOMPH-Datensatz konnten so Aerosole verschiedener chemischer Zusammensetzung unterschieden werden. Ein Rückschluss auf einzelne Moleküle kann jedoch nicht gezogen werden.
Resumo:
An efficient synthesis has been developed toward a novel series of conjugated blue emitting polymers containing triphenylene as repeating unit for polymer light emitting diodes (PLEDs). Soluble triphenylene-based co- and homo-polymers have been synthesized by the palladium-catalyzed Suzuki-Miyaura and the nickel-catalysed Yamamoto polycondensation reactions, respectively. The photophysical properties as well as the application of the polymers in PLED devices are presented here.rnIn addition a simple GNR fabrication method that allows for the production of atomically precise GNRs of different topologies and widths is introduced. This bottom-up approach consists in the surface-assisted coupling of suitably designed molecular triphenylene precursors into linear polyphenylenes and their subsequent cyclodehydrogenation and results in GNRs whose topology, width and edge periphery are defined by the precursor monomers. Various types of atomically precise GNRs thus eventually become available for experimental investigation and exploitation of their many predicted and technologically highly interesting properties. Furthermore, it is anticipated that this bottom-up approach of GNR fabrication will allow the engineering of chemical and electronic properties and the yet elusive realization of theoretically predicted structures such as intraribbon quantum dots, superlattice structures, or magnetic devices based on specific GNR edge states.rn
Resumo:
The presented thesis revolves around the study of thermally-responsive PNIPAAm-based hydrogels in water/based environments, as studied by Fluorescence Correlation Spectroscopy (FCS).rnThe goal of the project was the engineering of PNIPAAm gels into biosensors. Specifically, a gamma of such gels were both investigated concerning their dynamics and structure at the nanometer scale, and their performance in retaining bound bodies upon thermal collapse (which PNIPAAm undergoes upon heating above 32 ºC).rnFCS’s requirements, as a technique, match the limitations imposed by the system. Namely, the need to intimately probe a system in a solvent, which was also fragile and easy to alter. FCS, on the other hand, both requires a fluid environment to work, and is based on the observation of diffusion of fluorescents at nanomolar concentrations. FCS was applied to probe the hydrogels on the nanometer size with minimal invasivity.rnVariables in the gels were addressed in the project including crosslinking degree; structural changes during thermal collapse; behavior in different buffers; the possibility of decreasing the degree of inhomogeneity; behavior of differently sized probes; and the effectiveness of antibody functionalization upon thermal collapse.rnThe evidenced results included the heightening of structural inhomogeneities during thermal collapse and under different buffer conditions; the use of annealing to decrease the inhomogeneity degree; the use of differently sized probes to address different length scale of the gel; and the successful functionalization before and after collapse.rnThe thesis also addresses two side projects, also carried forward via FCS. One, diffusion in inverse opals, produced a predictive simulation model for diffusion of bodies in confined systems as dependent on the bodies’ size versus the characteristic sizes of the system. The other was the observation of interaction of bodies of opposite charge in a water solution, resulting in a phenomenological theory and an evaluation method for both the average residence time of the different bodies together, and their attachment likelihood.
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Ziel der vorliegenden Arbeit war die vergleichende Sequenzierung und nachfolgende Analyse des syntänen chromosomalen Abschnitts auf dem kurzen Arm des humanen Chromosoms 11 in der Region 11p15.3 mit den Genen LMO1, TUB und dem orthologen Genomabschnitt der Maus auf Chromosom 7 F2. Die im Rahmen dieser Arbeit durchgeführte Kartierung dieser beiden chromosomalen Bereiche ermöglichte die Komplettierung einer genomischen Karte auf insgesamt über eine Megabase, die im Kooperationssequenzierprojekt der Universitäts-Kinderklinik und dem Institut für Molekulargenetik in Mainz erstellt wurde. Mit Hilfe von 28 PAC- und Cosmid-Klonen konnten in dieser Arbeit 383 kb an genomischer DNA des Menschen und mit sechs BAC- und PAC-Klonen 412 kb an genomischer DNA der Maus dargestellt werden. Dies ermöglichte erstmals die exakte Festlegung der Reihenfolge der in diesem chromosomalen Abschnitt enthaltenen Gene und die genaue Kartierung von acht STS-Markern des Menschen, bzw. vier STS-Sonden der Maus. Es zeigte sich dabei, dass die chromosomale Orientierung telomer-/centromerwärts des orthologen Bereichs in der Maus im Vergleich zum Menschen in invertierter Ausrichtung vorliegt. Die Sequenzierung von drei humanen Klonen ermöglichte die Bestimmung von 319.119 bp an zusammenhängender genomischer DNA. Dadurch konnte die genaue Lokalisation und Strukturaufklärung der Gene LMO1, ein putatives Tumorsuppressorgen, das mit der Entstehung von Leukämien assoziiert ist, und TUB, ein Transkriptionsmodulator, der in die Fettstoffwechselregulation involviert ist, vorgenommen werden. Für das murine Genom wurden 412.827 bp an neuer DNA-Sequenz durch Sequenzierung von ebenfalls drei Klonen generiert. Der im Vergleich zum Menschen ca. 100 kb größere Genombereich beinhaltete zudem die neuen Gene Stk33 und Eif3. Es handelte sich dabei um zwei Gene, die erst im Rahmen dieser Arbeit entdeckt und charakterisiert wurden. Die parallele Bearbeitung beider Genombereiche ermöglichte eine umfassende komparative Analyse nach kodierenden, funktionellen und strukturgebenden Sequenzabschnitten in beiden Spezies. Es konnten dabei für beide Organismen die Exon-Intron-Strukturen der Gene LMO1/Lmo1 und TUB/Tub geklärt. Zudem konnten vier neue Exons und zwei neue speziesspezifischer Spleißvarianten für TUB/Tub beschrieben werden. Die Identifizierung dieser neuen Spleißvarianten offenbart neue Möglichkeiten für alternative Regulation und Funktion, oder für eine veränderte Proteinstruktur, die weitere Erklärungsansätze für die Entstehung der mit diesen Genen assoziierten Erkrankungen zulässt. In der sequenzierten, größeren Genomsequenz der Maus konnte in den flankierenden, nicht mit der sequenzierten Humansequenz überlappenden Bereich das neue Gen Eif3 in seiner Exon-Intron-Struktur und die beiden letzten Exons 11 und 12 des Gens Stk33 kartiert und charakterisiert werden. Die umfangreiche Sequenzanalyse beider sequenzierter Genombereiche ergab für den Abschnitt des Menschen insgesamt 229 potentielle Exonsequenzen und für den Bereich der Maus 527 mögliche Exonbereiche. Davon konnten beim Menschen explizit 21 Exons und bei der Maus 31 Exons als exprimierte Bereiche identifiziert und experimentell mittels RT-PCR, bzw. durch cDNA-Sequenzierung verifiziert werden. Diese Abschnitte beschrieben nicht nur die Exonbereiche der oben genannten vier Gene, sondern konnten auch neuen nicht weiter definierten EST-Sequenzen zugeordnet werden. Mittels des Interspeziesvergleiches war darüber hinaus auch die Analyse der nichtkodierenden Intergen-Bereiche möglich. So konnten beispielsweise im ersten Intron des LMO1/Lmo1 sieben Sequenzbereiche mit Konservierungen von ca. 90% bestimmt werden. Auch die Charakterisierung von Promotor- und putativ regulatorischen Sequenzabschnitten konnte mit Hilfe unterschiedlicher bioinformatischer Analyse-Tools durchgeführt werden. Die konservierten Sequenzbereiche der DNA zeigen im Durchschnitt eine Homologie von mehr als 65% auf. Auch die Betrachtung der Genomorganisation zeigte Gemeinsamkeiten, die sich meist nur in ihrer graduellen Ausprägung unterschieden. So weist ein knapp 80 kb großer Bereich proximal zum humanen TUB-Gen einen deutlich erhöhten AT-Gehalt auf, der ebenso im murinen Genom nur in verkürzter Version und schwächer ausgeprägt in Erscheinung tritt. Die zusätzliche Vergleichsanalyse mit einer weiteren Spezies, den orthologen Genomabschnitten von Fugu, zeigte, dass es sich bei den untersuchten Genen LMO1 und TUB um sehr konservierte und evolutiv alte Gene handelt, deren genomisches Organisationsmuster sich auch bei den paralogen Genfamilienmitglieder innerhalb derselben Spezies wiederfindet. Insgesamt konnte durch die Kartierung, Sequenzierung und Analyse eine umfassende Datenbasis für die betrachtete Genomregion und die beschriebenen Gene generiert werden, die für zukünftige Untersuchungen und Fragestellungen wertvolle Informationen bereithält.
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In this thesis we develop further the functional renormalization group (RG) approach to quantum field theory (QFT) based on the effective average action (EAA) and on the exact flow equation that it satisfies. The EAA is a generalization of the standard effective action that interpolates smoothly between the bare action for krightarrowinfty and the standard effective action rnfor krightarrow0. In this way, the problem of performing the functional integral is converted into the problem of integrating the exact flow of the EAA from the UV to the IR. The EAA formalism deals naturally with several different aspects of a QFT. One aspect is related to the discovery of non-Gaussian fixed points of the RG flow that can be used to construct continuum limits. In particular, the EAA framework is a useful setting to search for Asymptotically Safe theories, i.e. theories valid up to arbitrarily high energies. A second aspect in which the EAA reveals its usefulness are non-perturbative calculations. In fact, the exact flow that it satisfies is a valuable starting point for devising new approximation schemes. In the first part of this thesis we review and extend the formalism, in particular we derive the exact RG flow equation for the EAA and the related hierarchy of coupled flow equations for the proper-vertices. We show how standard perturbation theory emerges as a particular way to iteratively solve the flow equation, if the starting point is the bare action. Next, we explore both technical and conceptual issues by means of three different applications of the formalism, to QED, to general non-linear sigma models (NLsigmaM) and to matter fields on curved spacetimes. In the main part of this thesis we construct the EAA for non-abelian gauge theories and for quantum Einstein gravity (QEG), using the background field method to implement the coarse-graining procedure in a gauge invariant way. We propose a new truncation scheme where the EAA is expanded in powers of the curvature or field strength. Crucial to the practical use of this expansion is the development of new techniques to manage functional traces such as the algorithm proposed in this thesis. This allows to project the flow of all terms in the EAA which are analytic in the fields. As an application we show how the low energy effective action for quantum gravity emerges as the result of integrating the RG flow. In any treatment of theories with local symmetries that introduces a reference scale, the question of preserving gauge invariance along the flow emerges as predominant. In the EAA framework this problem is dealt with the use of the background field formalism. This comes at the cost of enlarging the theory space where the EAA lives to the space of functionals of both fluctuation and background fields. In this thesis, we study how the identities dictated by the symmetries are modified by the introduction of the cutoff and we study so called bimetric truncations of the EAA that contain both fluctuation and background couplings. In particular, we confirm the existence of a non-Gaussian fixed point for QEG, that is at the heart of the Asymptotic Safety scenario in quantum gravity; in the enlarged bimetric theory space where the running of the cosmological constant and of Newton's constant is influenced by fluctuation couplings.
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This work deals with the car sequencing (CS) problem, a combinatorial optimization problem for sequencing mixed-model assembly lines. The aim is to find a production sequence for different variants of a common base product, such that work overload of the respective line operators is avoided or minimized. The variants are distinguished by certain options (e.g., sun roof yes/no) and, therefore, require different processing times at the stations of the line. CS introduces a so-called sequencing rule H:N for each option, which restricts the occurrence of this option to at most H in any N consecutive variants. It seeks for a sequence that leads to no or a minimum number of sequencing rule violations. In this work, CS’ suitability for workload-oriented sequencing is analyzed. Therefore, its solution quality is compared in experiments to the related mixed-model sequencing problem. A new sequencing rule generation approach as well as a new lower bound for the problem are presented. Different exact and heuristic solution methods for CS are developed and their efficiency is shown in experiments. Furthermore, CS is adjusted and applied to a resequencing problem with pull-off tables.
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In this thesis, the phenomenology of the Randall-Sundrum setup is investigated. In this context models with and without an enlarged SU(2)_L x SU(2)_R x U(1)_X x P_{LR} gauge symmetry, which removes corrections to the T parameter and to the Z b_L \bar b_L coupling, are compared with each other. The Kaluza-Klein decomposition is formulated within the mass basis, which allows for a clear understanding of various model-specific features. A complete discussion of tree-level flavor-changing effects is presented. Exact expressions for five dimensional propagators are derived, including Yukawa interactions that mediate flavor-off-diagonal transitions. The symmetry that reduces the corrections to the left-handed Z b \bar b coupling is analyzed in detail. In the literature, Randall-Sundrum models have been used to address the measured anomaly in the t \bar t forward-backward asymmetry. However, it will be shown that this is not possible within a natural approach to flavor. The rare decays t \to cZ and t \to ch are investigated, where in particular the latter could be observed at the LHC. A calculation of \Gamma_{12}^{B_s} in the presence of new physics is presented. It is shown that the Randall-Sundrum setup allows for an improved agreement with measurements of A_{SL}^s, S_{\psi\phi}, and \Delta\Gamma_s. For the first time, a complete one-loop calculation of all relevant Higgs-boson production and decay channels in the custodial Randall-Sundrum setup is performed, revealing a sensitivity to large new-physics scales at the LHC.
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The amyloid precursor protein (APP) is a type I transmembrane glycoprotein, which resembles a cell surface receptor, comprising a large ectodomain, a single spanning transmembrane part and a short C-terminal, cytoplasmic domain. It belongs to a conserved gene family, with over 17 members, including also the two mammalian APP homologues proteins APLP1 and APLP2 („amyloid precursor like proteins“). APP is encoded by 19 exons, of which exons 7, 8, and 15 can be alternatively spliced to produce three major protein isoforms APP770, APP751 and APP695, reflecting the number of amino acids. The neuronal APP695 is the only isoform that lacks a Kunitz Protease Inhibitor (KPI) domain in its extracellular portion whereas the two larger, peripheral APP isoforms, contain the 57-amino-acid KPI insert. rnRecently, research effort has suggested that APP metabolism and function is thought to be influenced by homodimerization and that the oligomerization state of APP could also play a role in the pathology of Alzheimer's disease (AD), by regulating its processing and amyloid beta production. Several independent studies have shown that APP can form homodimers within the cell, driven by motifs present in the extracellular domain, as well as in the juxtamembrane (JM) and transmembrane (TM) regions of the molecule, whereby the exact molecular mechanism and the origin of dimer formation remains elusive. Therefore, we focused in our study on the actual subcellular origin of APP homodimerization within the cell, an underlying mechanism, and a possible impact on dimerization properties of its homologue APLP1. Furthermore, we analyzed homodimerization of various APP isoforms, in particular APP695, APP751 and APP770, which differ in the presence of a Kunitz-type protease inhibitor domain (KPI) in the extracellular region. In order to assess the cellular origin of dimerization under different cellular conditions, we established a mammalian cell culture model-system in CHO-K1 (chinese hamster ovary) cells, stably overexpressing human APP, harboring dilysine based organelle sorting motifs at the very C-terminus [KKAA-Endoplasmic Reticulum (ER); KKFF-Golgi]. In this study we show that APP exists as disulfide-bound, SDS-stable dimers, when it was retained in the ER, unlike when it progressed further to the cis-Golgi, due to the KKFF ER exit determinant. These stable APP complexes were isolated from cells, and analyzed by SDS–polyacrylamide gel electrophoresis under non-reducing conditions, whereas strong denaturing and reducing conditions completely converted those dimers to monomers. Our findings suggested that APP homodimer formation starts early in the secretory pathway and that the unique oxidizing environment of the ER likely promotes intermolecular disulfide bond formation between APP molecules. We particularly visualized APP dimerization employing a variety of biochemical experiments and investigated the origin of its generation by using a Bimolecular Fluorescence Complementation (BiFC) approach with split GFP-APP chimeras. Moreover, using N-terminal deletion constructs, we demonstrate that intermolecular disulfide linkage between cysteine residues, exclusively located in the extracellular E1 domain, represents another mechanism of how an APP sub-fraction can dimerize within the cell. Additionally, mutational studies revealed that cysteines at positions 98 and 105, embedded in the conserved loop region within the E1 domain, are critical for interchain disulfide bond formation. Using a pharmacological treatment approach, we show that once generated in the oxidative environment of the ER, APP dimers remain stably associated during transport, reaching the plasma membrane. In addition, we demonstrate that APP isoforms, encompassing the KPI domain, exhibit a strongly reduced ability to form cis-directed dimers in the ER, whereas trans-directed cell aggregation of Drosophila Schneider (S2)-cells was isoform independent, mediating cell-cell contacts. Thus, suggesting that steric properties of KPI-APP might be the cause for weaker cis-interaction in the ER, compared to APP695. Finally, we provide evidence that APP/APLP1 heterointeractions are likewise initiated in the ER, suggesting a similar mechanism for heterodimerization. Therefore, dynamic alterations of APP between monomeric, homodimeric, and possibly heterodimeric status could at least partially explain some of the variety in the physiological functions of APP.rn
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This thesis describes the ultra-precise determination of the g-factor of the electron bound to hydrogenlike 28Si13+. The experiment is based on the simultaneous determination of the cyclotron- and Larmor frequency of a single ion, which is stored in a triple Penning-trap setup. The continuous Stern-Gerlach effect is used to couple the spin of the bound electron to the motional frequencies of the ion via a magnetic bottle, which allows the non-destructive determination of the spin state. To this end, a highly sensitive, cryogenic detection system was developed, which allowed the direct, non-destructive detection of the eigenfrequencies with the required precision.rnThe development of a novel, phase sensitive detection technique finally allowed the determination of the g-factor with a relative accuracy of 40 ppt, which was previously inconceivable. The comparison of the hereby determined value with the value predicted by quantumelectrodynamics (QED) allows the verification of the validity of this fundamental theory under the extreme conditions of the strong binding potential of a highly charged ion. The exact agreement of theory and experiment is an impressive demonstration of the exactness of QED. The experimental possibilities created in this work will allow in the near future not only further tests of theory, but also the determination of the mass of the electron with a precision that exceeds the current literature value by more than an order of magnitude.
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Das menschliche Gen human giant larvae (hugl) ist ein Homolog des hochkonservierten Drosophila Gens lethal giant larvae (lgl), welches in Epithelzellen die Funktion eines neoplastischen Tumorsuppressors und Polaritätsregulators einnimmt. Ein Verlust oder eine verminderte Expression beider Homologe des Gens, hugl-1 und hugl-2, geht einher mit dem Auftreten und der Progression verschiedener epithelialer Tumorerkrankungen wie malignen Melanomen und Brust-, Kolon- oder Lungentumoren. Die exakte Funktion der Homologe Hugl-1 und Hugl-2 bezüglich der Regulation und Aufrechterhaltung der epithelialen Zellpolarität sowie ihre Rolle in der Genese humaner Tumore ist jedoch weitgehend unbekannt. Gänzlich unbekannt ist auch die Bedeutung von Hugl-1 und Hugl-2 als Polaritätsregulatoren für die Ausbildung und den Erhalt der T-Zellmorphologie und -funktion. Ziel der vorliegenden Arbeit war es daher, die Polaritäts- und Tumorsuppressorgene hugl-1 und hugl-2 in funktionellen Analysen mittels siRNA-vermitteltem Gen-Silencing in Epithelzellen und T-Lymphozyten zu charakterisieren. Darüber hinaus wurden die Funktionen und Eigenschaften von mgl-2, dem murinen Homologen von hugl-2, im Cre/loxP-vermittelten konditionalen Knockout Mausmodell in vivo analysiert.rnrnZur Charakterisierung der biologischen Effekte von Hugl-1 und Hugl-2 auf das Wachstumsverhalten, Migration und Invasion von Epithelzellen wurden in dieser Arbeit erfolgreich unterschiedliche shRNA-Expressionskonstrukte generiert sowie Hugl-supprimierte Zelllinien etabliert. In vitro Studien sowie in vivo Tumorigenizitätsanalysen lieferten übereinstimmend Hinweise darauf, dass verminderte Hugl-1- und Hugl-2-Expressionsspiegel eine signifikante Rolle in der Vermittlung invasiver und tumorigener Eigenschaften von Epithelzellen spielen. Dabei rief der Verlust beider Homologe deutlich stärkere Reaktionen hervor als die Suppression eines einzelnen Homologen. Zudem wiesen die Überexpression des Zellzyklusregulators Cyclin D1 sowie die Hyperproliferation von Hugl-1- und/oder Hugl-2-depletierten Epithelzellen auf eine wichtige Rolle der beiden Homologe in der Zellzyklusprogression und Zellproliferation hin. Ein geringer Expressionsstatus von Hugl-1 und -2 schien darüber hinaus mit einer verstärkten Resistenzbildung gegenüber Chemotherapeutika zu korrelieren. Im Rahmen dieser Arbeit konnte weiterhin gezeigt werden, dass die untersuchten T-Lymphozyten nur Hugl-1 exprimieren und dass letzteres notwendig für den F-Aktin-vermittelten Erhalt der T-Zellpolarität und -morphologie ist. Hugl-1-supprimierte, über voneinander unabhängige Signalwege (TCR- oder Chemokinrezeptor) stimulierte T-Lymphozyten wiesen eine bedeutende Störung der Lamellipodien- und Uropodausbildung auf und ließen eine Interaktion von Hugl-1 auf Ebene des F Aktins vermuten. Des Weiteren zeigte sich, dass der Polaritätsregulator Hugl-1 die CD3/TCR-induzierte Zelladhäsion positiv beeinflusst. Die Analyse der T-Zellmigration und -motilität offenbarte in Übereinstimmung dazu die Wichtigkeit von Hugl-1 für die Polarisierung und Migration der T-Zellen sowohl im Chemokingradienten als auch auf mDCs. rnrnFür die Aufklärung der funktionellen Rolle von mgl-2 in vivo wurde in dieser Arbeit eine Tamoxifen-induzierbare, Cre/loxP-vermittelte konditionale Mauslinie generiert und analysiert. Die mgl-2-deletierten Tiere wiesen weder signifikante phänotypische Unterschiede noch Abweichungen in der Organanatomie auf und ließen daher auf eine Kompensation durch das im Darmepithel koexprimierte und möglicherweise funktionell redundante mgl-1 Gen schließen.rn
Resumo:
The use of linear programming in various areas has increased with the significant improvement of specialized solvers. Linear programs are used as such to model practical problems, or as subroutines in algorithms such as formal proofs or branch-and-cut frameworks. In many situations a certified answer is needed, for example the guarantee that the linear program is feasible or infeasible, or a provably safe bound on its objective value. Most of the available solvers work with floating-point arithmetic and are thus subject to its shortcomings such as rounding errors or underflow, therefore they can deliver incorrect answers. While adequate for some applications, this is unacceptable for critical applications like flight controlling or nuclear plant management due to the potential catastrophic consequences. We propose a method that gives a certified answer whether a linear program is feasible or infeasible, or returns unknown'. The advantage of our method is that it is reasonably fast and rarely answers unknown'. It works by computing a safe solution that is in some way the best possible in the relative interior of the feasible set. To certify the relative interior, we employ exact arithmetic, whose use is nevertheless limited in general to critical places, allowing us to rnremain computationally efficient. Moreover, when certain conditions are fulfilled, our method is able to deliver a provable bound on the objective value of the linear program. We test our algorithm on typical benchmark sets and obtain higher rates of success compared to previous approaches for this problem, while keeping the running times acceptably small. The computed objective value bounds are in most of the cases very close to the known exact objective values. We prove the usability of the method we developed by additionally employing a variant of it in a different scenario, namely to improve the results of a Satisfiability Modulo Theories solver. Our method is used as a black box in the nodes of a branch-and-bound tree to implement conflict learning based on the certificate of infeasibility for linear programs consisting of subsets of linear constraints. The generated conflict clauses are in general small and give good rnprospects for reducing the search space. Compared to other methods we obtain significant improvements in the running time, especially on the large instances.
