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Vimentin is currently used to differentiate between malignant renal carcinomas and benign oncocytomas. Recent reports showing Vimentin positive oncocytomas seriously question the validity of this present diagnostic approach. Vimentin 3 is a spliced variant and ends with a unique C-terminal ending after exon 7 which differentiates it from the full length version that has 9 exons. Therefore, the protein size is different; the full length Vimentin version has a protein size of ~57 kDa and the truncated version of ~47 kDa. We designed an antibody, called Vim3, against the unique C-terminal ending of the Vimentin 3 variant. Using immune histology, immune fluorescence, Western blot, and qRT-PCR analysis, a Vim3 overexpression was detectable exclusively in oncocytoma, making the detection of Vim3 a potential specific marker for benign kidney tumors. This antibody is the first to clearly differentiate benign oncocytoma and the mimicking eosinophilic variants of the RCCs. This differentiation between malignant and benign RCCs is essential for operative planning, follow-up therapy, and patients' survival. In the future the usage of Vimentin antibodies in routine pathology has to be applied with care. Consideration must be given to Vimentin specific binding epitopes otherwise a misdiagnosis of the patients' tumor samples may result.
Since Mobile Virtual Assistants are rising in popularity and come with most new smartphones out of the box and theoretical work in the field is hard to come by, a test is in order to establish the status quo of development. We did a manual test on six different Mobile Virtual Assistants in the categories Voice Recognition, Online Search, Phone Control and Natural Conversation and the results show that Siri is currently the best Mobile Virtual Assistant on the market with a success rate of 65.8% on average over all four categories.
Electronic states with non-trivial topology host a number of novel phenomena with potential for revolutionizing information technology. The quantum anomalous Hall effect provides spin-polarized dissipation-free transport of electrons, while the quantum spin Hall effect in combination with superconductivity has been proposed as the basis for realizing decoherence-free quantum computing. We introduce a new strategy for realizing these effects, namely by hole and electron doping kagome lattice Mott insulators through, for instance, chemical substitution. As an example, we apply this new approach to the natural mineral herbertsmithite. We prove the feasibility of the proposed modifications by performing ab-initio density functional theory calculations and demonstrate the occurrence of the predicted effects using realistic models. Our results herald a new family of quantum anomalous Hall and quantum spin Hall insulators at affordable energy/temperature scales based on kagome lattices of transition metal ions.
We discuss applications of a recently developed method for model reduction based on linear response theory of weakly coupled dynamical systems. We apply the weak coupling method to simple stochastic differential equations with slow and fast degrees of freedom. The weak coupling model reduction method results in general in a non-Markovian system; we therefore discuss the Markovianization of the system to allow for straightforward numerical integration. We compare the applied method to the equations obtained through homogenization in the limit of large timescale separation between slow and fast degrees of freedom. We numerically compare the ensemble spread from a fixed initial condition, correlation functions and exit times from a domain. The weak coupling method gives more accurate results in all test cases, albeit with a higher numerical cost.
The Central Nigerian Nok Culture has been well known for its elaborate terracotta sculptures and evidence of iron metallurgy since its discovery by British archaeologist Bernard Fagg in the 1940s. With a date in the first millennium BCE, both, sculptures and ironworking, belong to the earliest of their kind in sub-Saharan Africa. After a period of destruction of Nok sites by looting, scientific research resumed in 2006, when a team of archaeologists from Goethe University in Germany started to explore different Nok Culture aspects, one of which focused on chronology. Establishing a chronology for the Nok Culture employed two approaches: a comprehensive pottery analysis based on decoration and form elements and a wealth of radiocarbon dates from a large number of excavated sites. This volume presents the radiocarbon dates and the methods, data and results of the chronological pottery analysis, conducted within the scope of a dissertation project completed in 2015. Combining the two strands of information, a chronology emerges, dividing the Nok Culture into three phases from the middle of the second millennium BCE to the last centuries BCE and defining seven pottery groups that can be arranged to some extent in a chronological order.
The degradation of cytosol-invading pathogens by autophagy, a process known as xenophagy, is an important mechanism of the innate immune system. Inside the host, Salmonella Typhimurium invades epithelial cells and resides within a specialized intracellular compartment, the Salmonella-containing vacuole. A fraction of these bacteria does not persist inside the vacuole and enters the host cytosol. Salmonella Typhimurium that invades the host cytosol becomes a target of the autophagy machinery for degradation. The xenophagy pathway has recently been discovered, and the exact molecular processes are not entirely characterized. Complete kinetic data for each molecular process is not available, so far. We developed a mathematical model of the xenophagy pathway to investigate this key defense mechanism. In this paper, we present a Petri net model of Salmonella xenophagy in epithelial cells. The model is based on functional information derived from literature data. It comprises the molecular mechanism of galectin-8-dependent and ubiquitin-dependent autophagy, including regulatory processes, like nutrient-dependent regulation of autophagy and TBK1-dependent activation of the autophagy receptor, OPTN. To model the activation of TBK1, we proposed a new mechanism of TBK1 activation, suggesting a spatial and temporal regulation of this process. Using standard Petri net analysis techniques, we found basic functional modules, which describe different pathways of the autophagic capture of Salmonella and reflect the basic dynamics of the system. To verify the model, we performed in silico knockout experiments. We introduced a new concept of knockout analysis to systematically compute and visualize the results, using an in silico knockout matrix. The results of the in silico knockout analyses were consistent with published experimental results and provide a basis for future investigations of the Salmonella xenophagy pathway.
Author Summary
Salmonellae are Gram-negative bacteria, which cause the majority of foodborne diseases worldwide. Serovars of Salmonella cause a broad range of diseases, ranging from diarrhea to typhoid fever in a variety of hosts. In the year 2010, Salmonella Typhi caused 7.6 million foodborne diseases and 52 000 deaths, and Salmonella enterica was responsible for 78.7 million diseases and 59 000 deaths. After invasion of Salmonella into host epithelial cells, a small fraction of Salmonella escapes from a specialized intracellular compartment and replicates inside the host cytosol. Xenophagy is a host defense mechanism to protect the host cell from cytosolic pathogens. Understanding how Salmonella is recognized and targeted for xenophagy is an important subject of current research. To the best of our knowledge, no mathematical model has been presented so far, describing the process of Salmonella Typhimurium xenophagy. Here, we present a manually curated and mathematically verified theoretical model of Salmonella Typhimurium xenophagy in epithelial cells, which is consistent with the current state of knowledge. Our model reproduces literature data and postulates new hypotheses for future investigations.
Recently a considerable amount of effort has been put into quantifying how interactions of the carbon and nitrogen cycle affect future terrestrial carbon sinks. Dynamic vegetation models, representing the nitrogen cycle with varying degree of complexity, have shown diverging constraints of nitrogen dynamics on future carbon sequestration. In this study, we use LPJ-GUESS, a dynamic vegetation model employing a detailed individual- and patch-based representation of vegetation dynamics, to evaluate how population dynamics and resource competition between plant functional types, combined with nitrogen dynamics, have influenced the terrestrial carbon storage in the past and to investigate how terrestrial carbon and nitrogen dynamics might change in the future (1850 to 2100; one representative "business-as-usual" climate scenario). Single-factor model experiments of CO2 fertilisation and climate change show generally similar directions of the responses of C–N interactions, compared to the C-only version of the model as documented in previous studies using other global models. Under an RCP 8.5 scenario, nitrogen limitation suppresses potential CO2 fertilisation, reducing the cumulative net ecosystem carbon uptake between 1850 and 2100 by 61%, and soil warming-induced increase in nitrogen mineralisation reduces terrestrial carbon loss by 31%. When environmental changes are considered conjointly, carbon sequestration is limited by nitrogen dynamics up to the present. However, during the 21st century, nitrogen dynamics induce a net increase in carbon sequestration, resulting in an overall larger carbon uptake of 17% over the full period. This contrasts with previous results with other global models that have shown an 8 to 37% decrease in carbon uptake relative to modern baseline conditions. Implications for the plausibility of earlier projections of future terrestrial C dynamics based on C-only models are discussed.
An Versuchen, Walter Benjamins 'Einbahnstraße' in die literarhistorischen Traditionen einzuordnen, fehlt es nicht. Vorzugsweise hat man dabei auf den Feldern gesucht, die sich von Benjamins eigenen frühen literarhistorischen Schwerpunkten aus anbieten, dem Barock mit dem Emblem und der Romantik mit dem Fragment, beides mit ebenso vielen Erträgen wie Problemen. Von anderen Aspekten in seinem Werk gehen die Erörterungen zu Traktat und Denkbild aus. Zum Traktat setzen sie bei Benjamins "Innenarchitektur" (WuN VIII, 38) an und nehmen Bezug auf den Konstruktivismus; zum Denkbild gehen sie von seinen "Denkbildern " aus, die unter dem Pseudonym Detlev Holz in der 'Frankfurter Zeitung' vom 15. November 1933 erschienen, wesentlich gestützt durch die Autorität Adornos etwa von Schlaffer und Jäger. Fernerliegendes, wie Anekdote und Mosaik, ist (von Bertrams Nietzsche-Bild her) gleichfalls erprobt worden, und Schöttker hat aus dem jeweiligen Ungenügen heraus auch integrierende Versuche unternommen. Benjamin habe versucht, "den frühromantischen Fragmentarismus, den er im barocken Drama vorbereitet sah, mit den Ideen der konstruktivistischen Avantgarde zu verbinden". Miniatur oder Minimalprosa sind daneben eher unverbindliche Verlegenheitslösungen geblieben. Am nachhaltigsten ist wohl der Aphorismus zur zentralen Kategorie erklärt worden, mit sehr viel Berechtigung und wiederum nicht ohne erhebliche einschränkende Bemerkungen.
Raytracing und Szenegraphen
(2006)
Raytracing ist ein bekanntes Verfahren zur Erzeugung fotorealistischer Bilder. Globale Beleuchtungseffekte einer 3D-Szene werden durch das Raytracing-Verfahren physikalisch korrekt dargestellt. Erst aktuelle Forschungsarbeiten erm¨oglichen es, das sehr rechenintensive Verfahren bei interaktiven Bildraten in Echtzeit zu berechnen.
Komplexe 3D-Szenen, wie sie beispielsweise in 3D-Spielen oder Simulationen vorkommen, können durch einen Szenengraphen modelliert und animiert werden. Damit die Rendering-Ergebnisse eines Szenengraphen n¨aher an einem realen Bild liegen, ist es erforderlich das Raytracing-Verfahren in einen Szenengraphen einzugliedern.
In dieser Arbeit werden die Möglichkeiten zur Integration eines Echtzeit-Raytracers in eine Szenengraph-API untersucht. Ziel dieser Diplomarbeit ist die Darstellung dynamischer Szenen bei interaktiven Bildraten unter Verwendung des Raytracing-Verfahrens auf einem herk¨ommlichen PC. Zun¨achst m¨ussen bestehende Open Source Szenengraph-APIs und aktuelle Echtzeit-Raytracer auf ihre Eignung zur Integration hin überprüft werden.
Bei der Verarbeitung dynamischer Szenen spielt die verwendete Beschleunigungsdatenstruktur des Raytracers eine entscheidende Rolle. Da eine komplette Neuerstellung der Datenstruktur in jedem Bild zuviel Zeit in Anspruch nimmt, ist eine schnelle und kostengünstige Aktualisierung erforderlich. Die in [LAM01] vorgestellte Lösung, eine Hüllkörperhierarchie (BVH) als Beschleunigungsdatenstruktur zu verwenden, fügt sich sehr gut in das Konzept eines Szenengraphen ein. Dadurch wird eine einfache Aktualisierung ermöglicht.
Um das Ziel dieser Arbeit zu erreichen, ist es notwendig, die Parallelisierbarkeit des Raytracing-Verfahrens auszunutzen. Purcell zeigt in [Pur04], dass Grafikprozessoren (GPUs) neben ihrer eigentlichen Aufgabe auch für allgemeine, parallele Berechnungen wie das Raytracing verwendet werden können.
Die in bisherigen Arbeiten über GPU-basiertes Raytracing entwickelten Systeme können dynamische Szenen nicht bei interaktiven Bildraten darstellen. Aus diesem Grund wird in dieser Diplomarbeit ein neues System konzipiert und implementiert, das den in [TS05] entwickelten Raytracer erweitert und in die Open Source Szenengraph-API OGRE 3D integriert.
Das implementierte System ermöglicht die Darstellung statischer und dynamischer Szenen unter Verwendung einer Consumer-Grafikkarte bei interaktiven Bildraten. Durch seine Erweiterbarkeit bildet das System das Grundger¨ust für ein Realtime-High-Quality-Rendering-System.