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Um die Funktionsweise von biologischen Prozessen zu untersuchen, werden Trigger-Signale benötigt, die die Prozesse initiieren können, ohne dabei dem Organismus zu schaden oder Nebenreaktionen hervorzurufen. Ein geeignetes Trigger-Signal stellt Licht dar, da es bei geeigneter Wellenlänge nichtinvasiv ist und nur wenige biologische Prozesse durch Licht gesteuert werden. Um einen Prozess mit Licht aktivierbar zu machen, benötigt man eine lichtsensitive Einheit, beispielsweise eine photolabile Schutzgruppe, die durch die Bestrahlung mit Licht einen zuvor blockierten Bereich freisetzt.
Hauptziel dieser Arbeit war es die Zweiphotonen-Technik für die Photolyse von photolabil geschützten Oligonukleotiden nutzbar zu machen und das Photolyseergebnis zu visualisieren.
Dazu wurden zunächst verschiedene mit Zweiphotonen-sensitiven Schutzgruppen modifizierte Phosphoramidite synthetisiert und über Festphasensynthese in Oligonukleotide eingebaut. Die Oligonukleotide mit den erstmals neu eingebauten Schutzgruppen ANBP und hNDBF wurden zunächst auf ihre Einphotonen-Eigenschaften, wie Schmelzpunkt, Absorptionsverhalten und Quantenausbeute untersucht. Weiterhin wurden erste Versuche zur wellenlängenselektiven Photolyse von hNDBF- und ANBP-geschützten Oligonukleotiden durchgeführt.
Die Existenz eines Zweiphotonen-induzierten Effekts kann durch die quadratische Abhängigkeit des erzeugten Effekts von der eingestrahlten Leistung nachgewiesen werden. Dazu wurde ein Verdrängungs-Assay entwickelt, dessen Doppelstrang-Sonde aus einem FRET-Paar besteht. Der Fluorophor-markierte Strang dient dabei als Gegenstrang zum photolabil geschützten Strang. Durch einen Thiol-Linker am photolabil geschützten Oligonukleotid konnte dieses erfolgreich in Maleimid-Hydrogele immobilisiert werden und der Verdrängungs-Assay im Gel durchgeführt werden. Die immobilisierten Stränge enthielten DEACM bzw. ANBP Schutzgruppen. Neben der quadratischen Abhängigkeit der Photolyse von der eingestrahlten Leistung konnten in diesen Hydrogelen auch 3D-aufgelöste Photolysen realisiert werden, die eindeutig die Zwei-Photonen-Photolyse belegen. Diese 3D-Experimente wurden zusammen mit Dr. Stephan Junek am MPI für Hirnforschung durchgeführt. Durch die Wahl zweier unterschiedlicher Sequenzen für die dTDEACM und dGANBP modifizierten Stränge und zwei unterschiedlicher Fluorophore für die Doppelstrang-Sonden, konnte die orthogonale Zweiphotonen-Photolyse gezeigt werden. Um zu zeigen, dass die Zweiphotonen-Photolyse von Oligonukleotiden auch in Organismen realisiert werden kann ohne das biologische System zu schädigen, wurde versucht den Verdrängungs-Assay auch in Zellen durchzuführen. Durch die Verwendung der Patch-Clamp-Technik in Zusammenarbeit mit Dr. Stephan Junek am MPI für Hirnforschung konnten die Stränge über die Elektrolyt-Lösung in Hippocampus-Neuronen eingebracht werden und durch Zweiphotonen-Bestrahlung dort photolysiert werden, was zu einem deutlichen Fluoreszenzanstieg führte. Durch die angeschlossene Patch-Clamp-Pipette konnten so zusätzlich elektrophysiologische Messungen durchgeführt werden, die zeigten, dass die durchgeführte Zweiphotonen-Bestrahlung nicht invasiv für die Zellen ist.
Die durchgeführten Experimente beweisen, dass Zweiphotonen-sensitive Schutzgruppen auf Oligonukleotiden photolysiert werden können und dass ihr Einsatz auch in biologischen Systemen möglich ist. Der entwickelte Verdrängungs-Assay ermöglicht es weiterhin neue photolabile Schutzgruppen auf Oligonukleotiden auf ihre Zweiphotonen-Sensitivität zu untersuchen.
Ein weiteres Projekt beschäftigte sich mit der Synthese der neuen Schutzgruppe DMA-NDBF-OH, die in-silico von der Arbeitsgruppe von Prof. Andreas Dreuw aus Heidelberg als effiziente Zweiphotonen-sensitive Schutzgruppe beschrieben wird. Es wurde versucht DMA-NDBF-OH über zwei Syntheserouten herzustellen. Eine Route basierte auf der Einführung der Funktionalitäten an einem unmodifizierten Dibenzofuran, die leider an der Bromierung der Seitenkette scheiterte. Die zweite Syntheseroute wurde in Anlehnung an die NDBF-Synthese von Deiters et al., bei der das Dibenzofuran durch eine Kondensation zweier modifizierter Benzolringe und einem Pd-katalysierten Ringschluss aufgebaut wird, durchgeführt. Mit dieser Syntheseroute konnte das DMA-NDBF-OH erfolgreich synthetisiert werden. Aufgrund ihrer starken bathochromen Verschiebung sollte sich diese Schutzgruppe hervorragend für die wellenlängenselektive Photolyse auf Ein- und Zweiphotonenebene eignen.
Bill Violas mediale Neubearbeitungen der Passion Christi mögen hier als ein produktiver Umweg fungieren, der die Abkehr von einer Ikonographie der Passion ermöglicht und eine neue Sicht auf die Passion als Denkstil eröffnet. Denn durch einen solchen leidenschaftlichen Denkstil, gemäß der Bedeutung von 'Passion' als intensiver Hingabe an eine Person oder ein Objekt, zeichnet sich Sigrid Weigels wissenschaftliche Praxis aus, so etwa durch die Leidenschaft für dialektische Analyseverfahren von Bild und Schrift, verstanden als kritische Praxis. Solch ein Erkenntnisinteresse versucht unermüdlich, eine Neubestimmung kritischer Wissenschaft vorzunehmen, die sich sowohl im historischen Prozess bewährt als auch in gegenwärtigen Belangen verankert bleibt. Es folgt eine kritische Lektüre von Bildern, die jeweils in dichten Beschreibungen eingeführt werden. Drei Beispiele aus der Gegenwartskunst veranschaulichen die Konstituierung von Identitäten mit Blick auf die Diskurse von Geschlecht, Rasse und sexueller Orientierung und damit die Konstruktion einer Identität im Spannungsfeld von Subjektivität und Fremdbestimmung. Die Bilder verdeutlichen dabei die resultierenden Konflikte zwischen eigenem Erleben und vorherrschenden Strukturen.
BACKGROUND: Despite its impact on female health worldwide, no efforts have been made to depict the global architecture of ovarian cancer research and to understand the trends in the related literature. Hence, it was the objective of this study to assess the global scientific performance chronologically, geographically and in regards to economic benchmarks using bibliometric tools and density equalizing map projections.
METHODS: The NewQIS platform was employed to identify all ovarian cancer related articles published in the Web of Science since 1900. The items were analyzed regarding quantitative aspects (e.g. publication date, country of origin) and parameters describing the recognition of the work by the scientific community (e.g. citation rates).
RESULTS: 23,378 articles on ovarian cancer were analyzed. The USA had the highest activity of ovarian cancer research with a total of n = 9312 ovarian cancer-specific publications, followed by the UK (n = 1900), China (n = 1813), Germany (n = 1717) and Japan (n = 1673). Ovarian cancer-specific country h-index also showed a leading position of the USA with an h-index (HI) of 207, followed by the UK (HI = 122), Canada (HI = 99), Italy (HI = 97), Germany (HI = 84), and Japan (HI = 81). In the socio-economic analysis, the USA were ranked first with an average of 175.6 ovarian cancer-related publications per GDP per capita in 1000 US-$, followed by Italy with an index level of 46.85, the UK with 45.48, and Japan with 43.3. Overall, the USA and Western European nations, China and Japan constituted the scientific power players publishing the majority of highly cited ovarian cancer-related articles and dominated international collaborative efforts. African, Asian and South American countries played almost no visible role in the scientific community.
CONCLUSIONS: The quantity and scientific recognition of publications related to ovarian cancer are continuously increasing. The research endeavors in the field are concentrated in high-income countries with no involvement of lower-resource nations. Hence, worldwide collaborative efforts with the aim to exchange epidemiologic data, resources and knowledge have to be strengthened in the future to successfully alleviate the global burden related to ovarian cancer.
Autophagy can act either as a tumor suppressor or as a survival mechanism for established tumors. To understand how autophagy plays this dual role in cancer, in vivo models are required. By using a highly heterogeneous C. elegans germline tumor, we show that autophagy-related proteins are expressed in a specific subset of tumor cells, neurons. Inhibition of autophagy impairs neuronal differentiation and increases tumor cell number, resulting in a shorter life span of animals with tumors, while induction of autophagy extends their life span by impairing tumor proliferation. Fasting of animals with fully developed tumors leads to a doubling of their life span, which depends on modular changes in transcription including switches in transcription factor networks and mitochondrial metabolism. Hence, our results suggest that metabolic restructuring, cell-type specific regulation of autophagy and neuronal differentiation constitute central pathways preventing growth of heterogeneous tumors.
Based on a non-rigorous formalism called the “cavity method”, physicists have made intriguing predictions on phase transitions in discrete structures. One of the most remarkable ones is that in problems such as random k-SAT or random graph k-coloring, very shortly before the threshold for the existence of solutions there occurs another phase transition called condensation [Krzakala et al., PNAS 2007]. The existence of this phase transition seems to be intimately related to the difficulty of proving precise results on, e. g., the k-colorability threshold as well as to the performance of message passing algorithms. In random graph k-coloring, there is a precise conjecture as to the location of the condensation phase transition in terms of a distributional fixed point problem. In this paper we prove this conjecture, provided that k exceeds a certain constant k0.
Lactate is an essential component of carbon metabolism in mammals. Recently, lactate was shown to signal through the G protein coupled receptor 81 (GPR81) and to thus modulate inflammatory processes. This study demonstrates that lactate inhibits pro-inflammatory signaling in a GPR81-independent fashion. While lipopolysaccharide (LPS) triggered expression of IL-6 and IL-12 p40, and CD40 in bone marrow-derived macrophages, lactate was able to abrogate these responses in a dose dependent manner in Gpr81-/- cells as well as in wild type cells. Macrophage activation was impaired when glycolysis was blocked by chemical inhibitors. Remarkably, lactate was found to inhibit LPS-induced glycolysis in wild type as well as in Gpr81-/- cells. In conclusion, our study suggests that lactate can induce GPR81-independent metabolic changes that modulate macrophage pro-inflammatory activation.
Reconstructions of the vegetation of Europe during the Last Glacial Maximum (LGM) are an enigma. Pollen-based analyses have suggested that Europe was largely covered by steppe and tundra, and forests persisted only in small refugia. Climate-vegetation model simulations on the other hand have consistently suggested that broad areas of Europe would have been suitable for forest, even in the depths of the last glaciation. Here we reconcile models with data by demonstrating that the highly mobile groups of hunter-gatherers that inhabited Europe at the LGM could have substantially reduced forest cover through the ignition of wildfires. Similar to hunter-gatherers of the more recent past, Upper Paleolithic humans were masters of the use of fire, and preferred inhabiting semi-open landscapes to facilitate foraging, hunting and travel. Incorporating human agency into a dynamic vegetation-fire model and simulating forest cover shows that even small increases in wildfire frequency over natural background levels resulted in large changes in the forested area of Europe, in part because trees were already stressed by low atmospheric CO2 concentrations and the cold, dry, and highly variable climate. Our results suggest that the impact of humans on the glacial landscape of Europe may be one of the earliest large-scale anthropogenic modifications of the earth system.
Single long-chain omega-3 fatty acids (e.g. docosahexaenoic acid (DHA) or eicosapentaenoic acid (EPA)) are known for their neuroprotective properties associated with ischemic stroke. This pilot study aimed to test the effectiveness of an acute treatment with a long-chain omega-3 lipid emulsion (Omegaven 10%®, OGV) that contains fish oil (DHA 18 mg/ml; EPA 21 mg/ml) and α-tocopherol (0.2 mg/ml) in a transient middle cerebral artery occlusion (MCAO) model of ischemic stroke in mice. For this purpose, female CD-1 mice were anesthetized and subjected to 90 minutes of MCAO. To reflect a clinically relevant situation for an acute treatment, either after induction of stroke or after reperfusion, a single dose of OGV was injected intravenously into the tail vein (5 ml/kg b.w.). A neurological severity score was used to assess motor function and neurological outcome. Stroke-related parameters were determined 24 hours after MCAO. Microdialysis was used to collect samples from extracellular space of the striatum. Mitochondrial function was determined in isolated mitochondria or dissociated brain cells. Inflammation markers were measured in brain homogenate. According to control experiments, neuroprotective effects could be attributed to the long-chain omega-3 content of the emulsion. Intravenous injection of OGV reduced size and severity of stroke, restored mitochondrial function, and prevented excitotoxic glutamate release. Increases of pro-inflammatory markers (COX-2 and IL-6) were attenuated. Neurological severity scoring and neurochemical data demonstrated that acute OGV treatment shortly after induction of stroke was most efficient and able to improve short-term neurological outcome, reflecting the importance of an acute treatment to improve the outcome. Summarising, acute treatment of stroke with a single intravenous dose of OGV provided strong neuroprotective effects and was most effective when given immediately after onset of ischemia. As OGV is an approved fishoil emulsion for parenteral nutrition in humans, our results may provide first translational data for a possible early management of ischemic stroke with administration of OGV to prevent further brain damage.
Preserving a patient’s own teeth—even in a difficult situation—is nowadays preferable to surgical intervention and therefore promotes development of suitable dental repair materials. Biodentine®, a mineral trioxide aggregate substitute, has been used to replace dentine in a bioactive and biocompatible manner in both the dental crown and the root. The aim of our study was to evaluate the influence of Biodentine® on pulp fibroblasts in vitro. For this study, one to five Biodentine® discs with a diameter of 5.1mm were incubated in DMEM. To obtain Biodentine® suspensions the media were collected and replaced with fresh medium every 24h for 4 days. Primary pulp cells were isolated from freshly extracted wisdom teeth of 20–23 year old patients and incubated with the Biodentine® suspensions. Proliferation, cell morphology, cell integrity and cell viability were monitored. To evaluate the effect of Biodentine® on collagen type I synthesis, the secretion of the N-terminal domain of pro-collagen type I (P1NP) and the release of transforming growth factor-β1 (TGF-β1) were quantified. None of the Biodentine® suspensions tested influenced cell morphology, proliferation or cell integrity. The cell viability varied slightly depending on the suspension used. However, the concentrations of P1NP of all pulp fibroblast cultures treated for 24h with the moderate to high Biodentine® concentration containing suspensions of day 1 were reduced to 5% of the control. Furthermore, a significant TGF-β1 reduction was observed after treatment with these suspensions. It could be shown that Biodentine® is biocompatible. However, dissolved particles of the moderate to high concentrated Biodentine® suspensions 24h after mixing induce a significant reduction of TGF-β1 release and reduce the secretion of collagen type I of primary pulp fibroblasts.
It is long known that Kasugamycin inhibits translation of canonical transcripts containing a 5’-UTR with a Shine Dalgarno (SD) motif, but not that of leaderless transcripts. To gain a global overview of the influence of Kasugamycin on translation efficiencies, the changes of the translatome of Escherichia coli induced by a 10 minutes Kasugamycin treatment were quantified. The effect of Kasugamycin differed widely, 102 transcripts were at least twofold more sensitive to Kasugamycin than average, and 137 transcripts were at least twofold more resistant, and there was a more than 100-fold difference between the most resistant and the most sensitive transcript. The 5’-ends of 19 transcripts were determined from treated and untreated cultures, but Kasugamycin resistance did neither correlate with the presence or absence of a SD motif, nor with differences in 5’-UTR lengths or GC content. RNA Structure Logos were generated for the 102 Kasugamycin-sensitive and for the 137 resistant transcripts. For both groups a short Shine Dalgarno (SD) motif was retrieved, but no specific motifs associated with resistance or sensitivity could be found. Notably, this was also true for the region -3 to -1 upstream of the start codon and the presence of an extended SD motif, which had been proposed to result in Kasugamycin resistance. Comparison of the translatome results with the database RegulonDB showed that the transcript with the highest resistance was leaderless, but no further leaderless transcripts were among the resistant transcripts. Unexpectedly, it was found that translational coupling might be a novel feature that is associated with Kasugamycin resistance. Taken together, Kasugamycin has a profound effect on translational efficiencies of E. coli transcripts, but the mechanism of action is different than previously described.