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Surface water can contain a complex mixture of organic micropollutants (i.e. residues of pharmaceuticals or biocides). Conventional wastewater treatment plants (WWTPs) do not completely remove a broad range of anthropogenic chemicals and therefore represent a leading point source. To upgrade WWTPs, technical solutions based on oxidative and sorptive processes have been developed and successfully implemented. Acknowledging these substantial advances, this thesis focuses on another key topic and aims to investigate whether improved biological treatment processes likewise effectively remove anthropogenic micropollutants from wastewater. The work conducted on this topic was part of two European research projects (ATHENE, ENDETECH).
The ATHENE project aimed to go beyond the state-of-the-art by developing biological wastewater treatment processes that exploit the full potential of biodegradation. With the objective to explore the potential of complementary strictly anaerobic conditions within the biological wastewater treatment, combinations of aerobic and anaerobic treatments on site of a WWTP were implemented. Based on pre-experiments, two promising treatment combinations were selected for a more comprehensive evaluation. An aerobic treatment was paired with an anaerobic pre-treatment under iron-reducing conditions, and an activated sludge treatment was combined with an anaerobic post-treatment under substrate-limiting conditions. For the evaluation of these processes, an effect-based assessment was applied and combined with chemical data of 31 selected target organic micropollutants as well as ten metabolites. To assess the removal of endocrine disrupting chemicals (EDCs), yeast based reporter gene assays covering seven receptor-mediated mechanisms of action including (anti-)estrogenicity, (anti-) androgenicity, retinoid-like, and dioxin-like activity were conducted. Furthermore, the removal of unspecific toxicity (Microtox assay) and oxidative stress response as a marker for reactive toxicity (AREc32 assay) were analyzed to cover micropollutants acting via a non-specific mechanism of action. Moreover, to assess toxicity of the whole effluent in vivo, standardized in vivo bioassays with four aquatic model species (Desmodesmus subspicatus, Daphnia magna, Lumbriculus variegatus, Potamopyrgus antipodarum) were performed.
The combination of aerobic and anaerobic treatments resulted in a low additional removal of the selected target organic micropollutants (by 14-17%). In contrast, the removal of endocrine and dioxin-like activities (by 17-75%) and non-specific in vitro toxicities (by 27-60%) was significantly enhanced. Compared to technical solutions (i.e. ozonation), the combination with an anaerobic pre-treatment under iron-reducing conditions was likewise effective in removing the estrogenic activity as well as the unspecific toxicity, whereas anti-androgenic activity and dioxin-like activity were less effectively removed. Exposure to effluents of the conventional activated sludge treatment did not induce adverse in vivo effects in the investigated aquatic model species. Accordingly, no further improvement in water quality could be observed. In conclusion, the combination of aerobic and anaerobic treatment processes significantly enhanced the removal of specific and non-specific in vitro toxicities. Thus, an optimization of the biological wastewater treatment can lead to a substantially improved detoxification. These capacities of a treatment technology can only be uncovered by complementary effect-based measurements.
The global objective of the ENDETECH project was to develop a biotechnological solution to eliminate recalcitrant pharmaceuticals in wastewater direct from sites, where high loads are expected (i.e. hospitals). For this purpose, laccase, an enzyme mainly found in wood decaying fungi, was immobilized on ceramic membranes for application in bioreactors. In a proof of principle experiment, the performance of immobilized laccase in removing a mixture of 38 antibiotics without and in combination with a natural mediator (syringaldehyde; SYR) was investigated. For the evaluation of the enzymatic membrane bioreactors, chemical data on the elimination of the selected target antibiotics was combined with the outcomes of two in vitro bioassays. Growth inhibition tests with an antibiotic sensitive Bacillus subtilis strain were conducted to assess the residual antibiotic activity of the effluents, and Microtox assays were performed to detect a potential formation of toxic by-products.
The treatment by laccase without SYR did not reduce the load of antibiotics significantly. In contrast, in combination with a SYR concentration of 10 µmol L-1, 26 out of 38 antibiotics were removed by >50% after 24 h treatment. Moreover, increasing the SYR concentration to 1000 µmol L-1 resulted in a further improvement of the antibiotic removal. 32 out of 38 antibiotics were removed by over 50%, whereby 17 were almost completely eliminated (>90%). However, the treatment with laccase in combination with SYR resulted in a time-dependent increase of unspecific toxicity. While SYR alone did not affect B. subtilis, the combination of laccase with SYR led to a strong time-dependent growth inhibition up to 100%. Similar to that, a time-dependent increase of unspecific toxicity in the Microtox assay was observed. In conclusion, the laccase-mediator process successfully degrades a broad spectrum of antibiotics and thus represents a promising technology to treat wastewater from sites, where high loads are expected. However, further research is required to reduce the formation of unspecific toxicity before an implementation of this technology can be considered.
The soluble loop BC region guides, but not dictates, the assembly of the transmembrane cytochrome b6
(2017)
Studying folding and assembly of naturally occurring α-helical transmembrane proteins can inspire the design of membrane proteins with defined functions. Thus far, most studies have focused on the role of membrane-integrated protein regions. However, to fully understand folding pathways and stabilization of α–helical membrane proteins, it is vital to also include the role of soluble loops. We have analyzed the impact of interhelical loops on folding, assembly and stability of the heme-containing four-helix bundle transmembrane protein cytochrome b6 that is involved in charge transfer across biomembranes. Cytochrome b6 consists of two transmembrane helical hairpins that sandwich two heme molecules. Our analyses strongly suggest that the loop connecting the helical hairpins is not crucial for positioning the two protein “halves” for proper folding and assembly of the holo-protein. Furthermore, proteolytic removal of any of the remaining two loops, which connect the two transmembrane helices of a hairpin structure, appears to also not crucially effect folding and assembly. Overall, the transmembrane four-helix bundle appears to be mainly stabilized via interhelical interactions in the transmembrane regions, while the soluble loop regions guide assembly and stabilize the holo-protein. The results of this study might steer future strategies aiming at designing heme-binding four-helix bundle structures, involved in transmembrane charge transfer reactions.
Cells respond to protein misfolding and aggregation in the cytosol by adjusting gene transcription and a number of post-transcriptional processes. In parallel to functional reactions, cellular structure changes as well; however, the mechanisms underlying the early adaptation of cellular compartments to cytosolic protein misfolding are less clear. Here we show that the mammalian ubiquitin ligase C-terminal Hsp70-interacting protein (CHIP), if freed from chaperones during acute stress, can dock on cellular membranes thus performing a proteostasis sensor function. We reconstituted this process in vitro and found that mainly phosphatidic acid and phosphatidylinositol-4-phosphate enhance association of chaperone-free CHIP with liposomes. HSP70 and membranes compete for mutually exclusive binding to the tetratricopeptide repeat domain of CHIP. At new cellular locations, access to compartment-specific substrates would enable CHIP to participate in the reorganization of the respective organelles, as exemplified by the fragmentation of the Golgi apparatus (effector function).
The formation of secondary particles in the atmosphere accounts for more than half of global cloud condensation nuclei. Experiments at the CERN CLOUD (Cosmics Leaving OUtdoor Droplets) chamber have underlined the importance of ions for new particle formation, but quantifying their effect in the atmosphere remains challenging. By using a novel instrument setup consisting of two nano-particle counters, one of them equipped with an ion filter, we were able to further investigate the ion-related mechanisms of new particle formation. In autumn 2015, we carried out experiments at CLOUD on four systems of different chemical compositions involving monoterpenes, sulfuric acid, nitrogen oxides, and ammonia. We measured the influence of ions on the nucleation rates under precisely controlled and atmospherically relevant conditions. Our results indicate that ions enhance the nucleation process when the charge is necessary to stabilize newly formed clusters, i.e. in conditions where neutral clusters are unstable. For charged clusters that were formed by ion-induced nucleation, we were able to measure, for the first time, their progressive neutralization due to recombination with oppositely charged ions. A large fraction of the clusters carried a charge at 1.2 nm diameter. However, depending on particle growth rates and ion concentrations, charged clusters were largely neutralized by ion–ion recombination before they grew to 2.2 nm. At this size, more than 90 % of particles were neutral. In other words, particles may originate from ion-induced nucleation, although they are neutral upon detection at diameters larger than 2.2 nm. Observations at Hyytiälä, Finland, showed lower ion concentrations and a lower contribution of ion-induced nucleation than measured at CLOUD under similar conditions. Although this can be partly explained by the observation that ion-induced fractions decrease towards lower ion concentrations, further investigations are needed to resolve the origin of the discrepancy.
Einführung: Die höchste Offenheitsrate in der arteriellen Bypasschirurgie der unteren Extremitäten wird mit einem Segment der Vena saphena magna (VSM) von ausreichender Länge und Durchmesser erreicht. Dabei ist der Venendurchmesser der einzige signifikant korrelierende Faktor für das Auftreten einer Transplantatsstenose und damit der beste Prädiktor für die primäre und die sekundäre 2-Jahre-Durchgängigkeitsrates. In 20-40% der Patienten fehlt ein bzgl. des Lumens geeignetes Segment der Vena saphena magna zur Herstellung eines Bypasses bei der primären Operation. Daher wurde eine Technik entwickelt, kleinlumige Vena saphena magna Segmente mittels einer Valvulotomie zu erweitern.
Ziel: Eine zu kleinlumige Vena saphena magna soll VSM für eine spätere Verwendung als autologes Bypassmaterial der unteren Extremität konditioniert werden. Die häufigsten Indikationen für eine derartige Konditionierung sind die Bypassverwendung bei der operativen Therapie der peripheren arteriellen Verschlusskrankheit (pAVK) und beim Aneurysma der Arteria poplitea (PA).
Methoden: Diese prospektive Pilotstudie würde zwischen Juni 2007 und November 2011 durchgeführt. 25 Patienten (26 Fälle) mit einem VSM Durchmesser zwischen 2 und 3mm erhielten eine in situ VSM-Valvulotomie. Die Zerstörung der suffizienten Venenklappen ermöglicht einen retrograden Blutstrom in die Vena saphena magna. Der hierdurch erzeugte Wachstumsreiz soll zu einer Durchmesserzunahme der Vene führen. Nach Erreichen eines Durchmessers von > 3mm für infragenuale Rekonstruktionen und von > 3,5 mm für supragenuale Rekonstruktion wurden die konditionierten Venensegmente als Bypass implantiert. Bei 23 Patienten war die Bypassindikation eine nicht kritische pAVK. Bei 2 Patienten war ein Aneurysma der Arteria poplitea die Indikation. Einschlusskriterium für Teilnahme an der Studie war eine nicht variköse VSM mit einem Querdurchmesser zwischen 2 und 3 mm. Die Venenevaluation erfolgte duplexsonografisch im Stehen durch eine Beurteilung der epifaszialen Vena saphena magna von der Leiste bis zum Innenknöchel. Messpunkte waren: 10 cm unterhalb des Hiatus saphenus, 10 cm oberhalb des Knies, 10 cm unterhalb des Knies und 10 cm oberhalb des Innenknöchels. Um das Venenwachstum zu ermitteln, diente als Messpunkt der kleinste ermittelte Durchmesser über einem Messbereich von 10 mm.
Drei Patienten, bei denen ein femoropoplitealer Bypass oberhalb des Kniegelenkes implantiert wurde, hatten bei der Implantation einen Durchmesser der konditionierten VSM > 3.5 mm. Bei 13 Patienten mit Bypassimplantation unterhalb des Kniegelenkes war die konditionierte VSM > 3mm. Eine Wiederholung der Valvulotomie war in keinem der Patienten nötwendig. Die valvulotomierte VSM wurde bei allen Bypassoperationen offen chirurgisch entnommen. Zur postoperativen Kontrolle erfolgten eine Duplexuntersuchung und eine ABI-Messung 1,3,6,12,18 und 24 Monate nach der Implantation.
Ergebnisse: Durchschnittlich vergrößerte sich der VSM-Durchmesser von initial 2,5±0,18 mm vor Valvulotomie auf 2,8±0,2 mm, 3,0±0,3mm und 3,2±0,4 mm jeweils 30, 60 und 90 Tage nach Valvolutomie. Bei der Entnahme betrug der durchschnittliche Bypassdurchmesser 3.7±0.6 mm. Die primäre 1-Jahres-Offenheitsrate mit der valvulotomierten VSM war 81±9,8% im Vergleich zu in der Literatur publizierten 58,0%±8,4% für alloplastische Transplantate, 51% für kleinkalibrige VSM und 81,6%±3,6% für Armvenentransplantate. Die sekundäre 1-Jahres-Offenheitsrate mit der Valvulotomietechnik betrug 87%±8,3% verglichen mit 82,6% für in der Literatur angegebene Transplantationen mit kleinkalibriger VSM. Die primäre 2-Jahres-Offenheitsrate mit der Valvulotomietechnik betrug 69%±11,8%, verglichen mit 50% in der Literatur angegebener Transplantationen von kleinkalibrige VSM benutzt wurden und 72%, falls Armvenentransplantate benutzt wurden. Die sekundäre 2-Jahres-Offenheitsrate mit der Valvulotomietechnik lag bei 75%±11%.
Fazit: Die Valvulotomie kann zur Zunahme des Venendurchmessers vor Anlage eines femoro-distalen Bypasses verwendet werden, weil sie regelhaft zum Reflux in der valvulotomierten Vene führt und dadurch ein relevantes Venenwachstum verursacht. Zwischen 60 und 90 Tagen nach Valvulotomie wird ein Venenduchmesser > 3.5 mm erreicht und die valvulotomierte VSM kann als femoropoplitealer Bypass oberhalb des Kniegelenkes implantiert werden. Für eine Anastomose unterhalb des Kniegelenkes genügt ein Wachstum bis > 3 mm. Wenn die valvulotomierte Vene einen entsprechenden Durchmesser erreicht, kann die konditionierte VSM benutzt werden, um einen Bypass mit guter Offenheitsprognose zu konstruieren oder einen nicht funktionierenden Bypass zu ersetzen.
The degradation of nonfunctional mitochondrial proteins is of fundamental relevance for maintenance of cellular homeostasis. The heteromeric CLPXP protein complex in the mitochondrial matrix is part of this process. In the fungal aging model Podospora anserina, ablation of CLPXP leads to an increase in healthy lifespan. Here, we report that this counterintuitive increase depends on a functional autophagy machinery. In PaClpXP mutants, autophagy is involved in energy conservation and the compensation of impairments in respiration. Strikingly, despite the impact on mitochondrial function, it is not mitophagy but general autophagy that is constitutively induced and required for longevity. In contrast, in another long-lived mutant ablated for the mitochondrial PaIAP protease, autophagy is neither induced nor required for lifespan extension. Our data provide novel mechanistic insights into the capacity of different forms of autophagy to compensate impairments of specific components of the complex mitochondrial quality control network and about the biological role of mitochondrial CLPXP in the control of cellular energy metabolism.
The study of lattice gauge theories with Monte Carlo simulations is hindered by the infamous sign problem that appears under certain circumstances, in particular at non-zero chemical potential. So far, there is no universal method to overcome this problem. However, recent years brought a new class of non-perturbative Hamiltonian techniques named tensor networks, where the sign problem is absent. In previous work, we have demonstrated that this approach, in particular matrix product states in 1+1 dimensions, can be used to perform precise calculations in a lattice gauge theory, the massless and massive Schwinger model. We have computed the mass spectrum of this theory, its thermal properties and real-time dynamics. In this work, we review these results and we extend our calculations to the case of two flavours and non-zero chemical potential. We are able to reliably reproduce known analytical results for this model, thus demonstrating that tensor networks can tackle the sign problem of a lattice gauge theory at finite density
The widespread application of human stem-cell-derived neurons for functional studies is impeded by complicated differentiation protocols, immaturity, and deficient optogene expression as stem cells frequently lose transgene expression over time. Here we report a simple but precise Cre-loxP-based strategy for generating conditional, and thereby stable, optogenetic human stem-cell lines. These cells can be easily and efficiently differentiated into functional neurons, and optogene expression can be triggered by administering Cre protein to the cultures. This conditional expression system may be applied to stem-cell-derived neurons whenever timed transgene expression could help to overcome silencing at the stem-cell level.
Introduction: DACCORD is an observational, non-interventional study being conducted in German primary and secondary care centres. The study aims to describe the impact of disease (including exacerbations) and treatments over 2 years on ‘real-life’ patients with chronic obstructive pulmonary disease (COPD).
Materials and methods: Patients had a clinical and spirometry diagnosis of COPD, were aged ≥40 years and, on recruitment, were initiating or changing COPD maintenance medication. The only exclusion criteria were asthma and randomised clinical trial participation. Exacerbations data were collected every 3 months. COPD medication, COPD Assessment Test (CAT) and forced expiratory volume in 1 s (FEV1) were recorded at baseline and after 1 and 2 years.
Results: A total of 6122 patients were recruited, 3137 (51.2%) of whom completed the 2-year visit. The mean age of these patients was 65.6 years, 59% were male, 69% had mild or moderate airflow limitation, and their mean COPD Assessment Test (CAT) total score was 20.3. Overall, there was a trend towards decreasing COPD exacerbation rates over the 2-year follow-up period, with rates of 0.390 during Year 1 and 0.347 during Year 2. Rates were lower in patients with no exacerbation during the 6 months prior to entry (0.263 and 0.251 during Years 1 and 2, respectively), with 51.6% of patients having no exacerbation during the 6 months prior to entry and over the 2-year follow-up. Approximately 50% of the overall population experienced a clinically relevant improvement from baseline in CAT total score at Year 1 and 2. When assessed by treatment class (or classes), persistence to medication was high (77.8% in Year 1 and 71.4% in Year 2).
Conclusions: Overall, the 2-year follow-up data from DACCORD suggest that for most patients with COPD exacerbations are a rare event. For the majority of patients, the focus should be on managing symptoms, and the impact that these symptoms have on their daily lives. Even for those patients who do exacerbate, although prevention of exacerbations is an important factor, management of symptoms should be a key consideration. DACCORD also suggests that COPD disease progression is not inevitable – providing patients are receiving pharmacological treatment.
Science Slam zum Thema Nachhaltigkeit +++ Institutsbericht 2017 erschienen +++ Zukunftsstadt: ISOE bei BMBF-Vernetzungskonferenz in Frankfurt am Main +++ Mobiles Baden-Württemberg: Szenarien für eine nachhaltige Mobilität +++ Sustainability Special Issue zur Sozialen Ökologie als Buch erschienen +++ Lebensmittelverpackungen: Alternativen zu Plastik, Alu & Co. +++ Auswirkungen von Mikroplastik auf Umwelt und Gesellschaft +++ UN-Klimagipfel in Bonn: Genderperspektive für eine gerechte Klimaschutzpolitik +++ Ideenwettbewerb Der Blaue Engel: Auszeichnung für Kampagnenkonzepte +++ Aus dem ISOE: Forschungspreis Transformative Wissenschaft für Laura Woltersdorf +++ Termine +++ Publikationen
Verkehrswende braucht neue Mobilitätskultur +++ Urban Farming: Beitrag zur nachhaltigen Entwicklung von Städten? +++ Grundwasser als Quelle der Welternährung in Gefahr +++ Einfamilienhaus: Forschungsergebnisse zur Zukunft eines Wohnideals +++ Wasserbedarf prognostizieren: Planungssicherheit für Wasserversorger +++ Neue Plattform für transdisziplinäre Forschung +++ Ökosystem Savanne bewahren +++ Medikamentenrückstände in der Umwelt: Was Ärzte tun können +++ Energiewende, private Haushalte und nachhaltiger Konsum +++ Umweltgerechtigkeit bei Umwelt- und Naturschutz +++ Aus dem ISOE: Dr. Laura Woltersdorf erhält Forschungspreis "Transformative Wissenschaft" +++ ISOE-Lehrveranstaltungen im Wintersemester +++ Termine +++ Publikationen
Aktuelle Einblicke in die Soziale Ökologie: Special Issue der Zeitschrift Sustainability erschienen +++ Innovative Wohnformen für eine nachhaltige Stadtentwicklung +++ Transportmittel im Trend: Fahrradverkehr in der Zukunftsstadt +++ ISOE Policy Brief zur Biodiversitätsforschung erschienen +++ Zukunftsfähige Wasserinfrastrukturen: Empfehlungen zur Transformation +++ Nachhaltig leben mit Kunststoff? Das Frankfurter Nachhaltigkeitslabor für Schulen geht in die nächste Runde +++ Das ISOE auf der "MS Wissenschaft" +++ Mit dem Rad entlang der Nidda – Exkursion im Forschungsprojekt NiddaMan +++ Termine +++ Publikationen
Nachhaltige Mobilität für alle +++ Welche Rolle spielen die Jüngeren für die Mobilität der Zukunft? +++ Wissenschaftler empfehlen Neuausrichtung der Biodiversitätsforschung +++ A Plastic Ocean – Filmabend und Diskussion mit der Forschungsgruppe PlastX +++ Internationale Konferenz für Meereskunde und Binnengewässer: ISOE-Wissenschaftlerin stellt PlastX vor +++ Wasserressourcen und Klimawandel – Neue Modellierungsmethoden eröffnen Anpassungsstrategien +++ Abwasser als Ressource +++ Wohnraum clever nutzen: Projekt "LebensRäume" gestartet +++ ISOE unterstützt "March for Science" +++ ISOE-Lehrveranstaltungen im Sommersemester +++ Termine +++ Publikationen
Warum in der Schweiz mehr Fairtrade-Produkte als in Deutschland gekauft werden – eine aktuelle Studie gibt Antworten +++ Antibiotika in der Landwirtschaft – Zielkonflikte zwischen Gesundheits- und Umweltschutz +++ Energiearmut in Deutschland: Wie sozialverträglich ist die Energiewende? +++ netWORKS 4 – Was können städtische Versorgungssysteme zur klimagerechten Stadtentwicklung beitragen? +++ Beitrag zu den Sustainable Development Goals – Wasserwiederverwendung in Namibia +++ Energiewende: Wie die Bürgerbeteiligung beim Bau von Windkraft- oder Biogasanlagen verbessert werden kann +++ Wasserressourcen schonen: Aufbereitung von Abwasser für Industrie und Landwirtschaft +++ Aus dem ISOE +++ Termine +++ Publikationen
N-Allyltetramethylpiperidine is readily isomerized to the corresponding enamine by treatment with catalytic amounts of B(C6F5)3. It adds HB(C6F5)2 at the nucleophilic enamine carbon atom to form a C/B Lewis adduct. This reacts with two molar equivalents of carbon monoxide by selective head to tail coupling to give a five-membered C2O2B heterocycle. In contrast the enamine/HB(C6F5)2 Lewis pair reacts with two molar equiv. of nitric oxide by head to head coupling. This reaction probably proceeds via equilibrium with the corresponding vicinal N/B Lewis pair. Most products were characterized by X-ray diffraction.
Impact of human mesenchymal stromal cells on antifungal host response against Aspergillus fumigatus
(2017)
Mesenchymal stromal cells (MSCs) are increasingly given as immunotherapy to hematopoietic stem cell transplant (HSCT) recipients with refractory graft-versus-host disease (GvHD). Whereas the immunosuppressive properties of MSCs seem to be beneficial in GvHD, there is, at the same time, major concern that MSCs increase the risk for infection. We therefore investigated the interplay of human MSCs with Aspergillus fumigatus and the impact of MSCs on different arms of the anti-Aspergillus host response in vitro. Although A. fumigatus hyphae increase mRNA levels of IL6 in MSCs, the extracellular availability of IL-6 and other pro-inflammatory cytokines remains unaffected. Human MSCs are able to phagocyte Aspergillus conidia, but phagocytosis of conidia is not associated with an alteration of the cytokine production by MSCs. In addition, human MSCs do not affect activation and function of A. fumigatus specific CD4+ T cells, and MSCs do not negatively impact the oxidative burst activity of phagocytes. Our in vitro data indicate that administration of human MSCs is not associated with a negative impact on the host response against A. fumigatus and that the fungus does not stimulate MSCs to increase the release of those cytokines which play a central role in the pathophysiology of GvHD.
New provisioning rules introduced by IFRS 9 are expected to reduce the procyclicality of provisioning. Heterogeneity among banks in the procyclicality of provisioning may not only reflect the formal accounting rules, but also variation in discretionary provisioning policies. This paper presents empirical evidence on the heterogeneity of provisioning procyclicality among significant banks that are directly supervised by the ECB. In particular, this paper finds that provisioning is relatively procyclical at banks that have i) high loans-to-assets ratios, ii) high shares of non-interest income in total operating income, iii) low capitalization rates, and iv) low total assets. Supervisory guidance provided to banks on how to implement IFRS 9 has mostly been of a qualitative nature, and may prove inadequate to prevent an undesirably wide future variation in provisioning among EU banks.
This paper was provided at the request of the Committee on Economic and Monetary Affairs of the European Parliament and commissioned and drafted under the responsibility of the Economic Governance Support Unit (EGOV) of the European Parliament. It was originally published on the European Parliament’s webpage.
Seit 2006 haben die Bundesländer das Recht, den Steuersatz der Grunderwerbsteuer selbst zu bestimmen. Von diesem Recht wurde in den meisten Bundesländern – mit Ausnahme von Bayern und Sachsen – ausgiebig Gebrauch gemacht. Mit dieser Entwicklung sind verschiedene negative Begleiterscheinungen der Steuer weiter in den Vordergrund gerückt. Ausweichreaktionen und Preiseffekte auf dem Immobilienmarkt führten dazu, dass aus jedem Prozent, um das der Steuersatz erhöht wurde, schätzungsweise nur rund 0,6 Prozent zusätzliche Steuereinahmen resultierten, während ohne Ausweichreaktionen und Preiseffekte eine Einnahmenerhöhung um ein Prozent zu erwarten gewesen wäre. Hinter diesem unterproportionalen Aufkommenseffekt sind verschiedene Mechanismen zu vermuten, wie etwa die Umgehung durch den Kauf des Grundvermögens als Teil einer Kapitalgesellschaft.
In Anbetracht der gestiegenen Steuersätze wurde im letzten Bundestagswahlkampf aus CDU sowie FDP der Ruf laut nach einem Freibetrag für Immobilienkäufer, die erworbenes Wohneigentum selbst nutzen möchten. Die Kinderzahl soll den Freibetrag je nach Vorschlag erhöhen.
Der Beitrag diskutiert kritisch die Forderung nach einer Familienkomponente der Grunderwerbssteuer und zeigt darüber hinaus mögliche Alternativen zur Einschränkung der Steuergestaltungen durch Share Deals auf.
Coming (great) events cast their (long) shadow before. As the financial crisis gave birth to the creation of the European System of Financial Supervision (ESFS), the imminent Brexit now serves as an impulse to rather extensively reorganize it. Pursuant to the preferences of the Commission—as revealed in its draft for a regulation amending the regulations founding the European Supervisory Authorities (ESA)—the supervision (and regulation) of the financial sectors should be further centralized and integrated and additional powers should be given to the ESAs. To a large degree these alterations are intended to adjust the competences of the European Securities and Markets Authority (ESMA) to better meet its new objectives under the Capital Markets Union (“CMU”). In view that an equivalent to the CMU or the Banking Union—in the sense of a European Insurance Union—is not yet on the horizon for the insurance sector (or the occupational pensions sector), one could prima vista take the view that insurance supervision and regulation is once again taken captive by the necessity of regulatory reforms stemming from other financial sectors. However, even if that is partially the case, the outcome of the intended reforms might still be advantageous for the insurance sector and an important step in the right direction. Therefore, it needs to be intensively discussed.
At this stage, some of the most prominent envisioned changes to the structure, tasks and powers of the European Insurance and Occupational Pensions Authority (EIOPA) and their necessity, usefulness or counter-productivity still have to be examined.
During the last IAIS Global Seminar in June 2017, IAIS disclosed the agenda for a gradual shift in the systemic risk assessment methodology from the current Entity Based Approach (EBA) to a new Activity Based Approach(ABA). The EBA, which was developed in the aftermath of the 2008/2009 financial crisis, defines a list of Global Systemically Important Insurers (G-SIIs) based on a pre-defined set of criteria related to the size of the institution. These G-SIIs are subject to additional regulatory requirements since their distress or disorderly failure would potentially cause significant disruption to the global financial system and economic activity. Even if size is still a needed element of a systemic risk assessment, the strong emphasis put on the too-big-to-fail approach in insurance, i.e. EBA, might be partially missing the underlying nature of systemic risk in insurance. Not only certain activities, including insurance activities such as life or non-life lines of business, but also common exposures or certain managerial practices such as leverage or funding structures, tend to contribute to systemic risk of insurers but are not covered by the current EBA (Berdin and Sottocornola, 2015). Therefore, we very much welcome the general development of the systemic risk assessment methodology, even if several important questions still need to be answered.
This paper considers the trend towards megaregionalism (TTIP, TPP) that became prominent in the trade domain in the last years of the Obama administration. While megaregionalism has fallen by the wayside since Trump’s inauguration, the underlying rationale for such treaties will most likely reassert itself rather soon. So there are structural issues that need to be discussed from a standpoint of global justice. In all likelihood, megaregionalism is detrimental to global justice. TTIP in particular, or anything like it, might derail any possibility for a trade organization to aid the pursuit of justice at the global level, and any possibility that trade will be used to that end. From the standpoint of global justice one must hope that megaregionalism does not replace WTO multilateralism. The global-justice framework used here is the grounds-of-justice approach offered in the author’s 2012 On Global Justice.
Megaregional trade negotiations have become the subject of heated debate, above all in the context of the Transatlantic Trade and Investment Partnership (TTIP) and the Trans-Pacific Partnership (TPP). In this article, I argue that the justice of the global order suffers from its institutional fragmentation into regime complexes. From a republican perspective, which aspires to non-domination as a guiding principles and idea of global justice, regime complexes raise specific and important challenges in that they open the door to specific forms of domination. I thereby challenge a more optimistic outlook in regime complexes, which paints a positive normative picture of regime complexes, arguing that they enable the enhancement of democracy beyond the state and, consequently, have the potential to reduce the democratic deficit in global governance. By drawing attention to how regime complexes reinforce domination-related injustice, this article contributes an original perspective on megaregionals and to exploring the implications of global justice as non-domination.
Recent trade negotiations such as TTIP include investor protection clauses. Against the background of an analysis of the case for trade, the paper asks whether such clauses can be justified from a normative perspective. More specifically, what is the impact of investor protection on the domestic distribution of the gains from trade between labour and capital, and how should we assess this impact from the perspective of justice? In order to answer this question, the paper develops a series of ideal-type scenarios that reflect the consequences of investor protection on employment on the one hand, and on the distributive conflict between labour and capital on the other. While no claim is made which of these scenarios corresponds to TTIP or other trade agreements, they provide a useful normative framework to analyse such agreements.
nvestor-state-dispute-settlement (ISDS) is an arbitration mechanism to settle disputes between foreign investors and host-states. Seemingly a technical issue in private international law, ISDS procedures have recently become a matter of public concern and the target of political resistance, due to the power they grant to foreign investors in matters of public policies in the countries they invest in. This article examines the practice of ISDS through the lenses of liberal-statist theories of international justice, which value self-determination. It argues that the investor-state arbitration system illustrates how liberal-statist theories of international distributive justice ought to care about relative socioeconomic disadvantage, contra the sufficiency principle that they typically defend. The sufficiency principle draws on a questionable conception of the freedom that self-determination consists in.
Readers of Hannah Arendt’s now classic formulation of the statelessness problem in her 1951 book The Origins of Totalitarianism abound at a moment when the number of stateless peoples worldwide continues to rise exponentially. Along with statelessness, few concepts in Arendt scholarship have spawned such a volume of literature, and perhaps none have provoked as much interest outside of the field of philosophy, as ‘the right to have rights.’ Interpreting this enigmatic term exposes the heart of our beliefs about the nature of the political and has important consequences for how we practice politics on a global scale because it implicitly takes plural human beings, and not the citizen, as its subjects. Arendt’s conceptualization of this problem remains unsurpassed in its diagnosis of the political situation of statelessness, as well as its intimate description of the human cost of what she refers to as ‘world loss,’ a phenomenon that the prevailing human rights and global justice discourse does not take into account. And yet, as an alternative framework for thinking about global politics, the right to have rights resists easy interpretation, let alone practical application.
This Chapter explores how an environment of persistent low returns influences saving, investing, and retirement behaviors, as compared to what in the past had been thought of as more “normal” financial conditions. Our calibrated lifecycle dynamic model with realistic tax, minimum distribution, and Social Security benefit rules produces results that agree with observed saving, work, and claiming age behavior of U.S. households. In particular, our model generates a large peak at the earliest claiming age at 62, as in the data. Also in line with the evidence, our baseline results show a smaller second peak at the (system-defined) Full Retirement Age of 66. In the context of a zero-return environment, we show that workers will optimally devote more of their savings to non-retirement accounts and less to 401(k) accounts, since the relative appeal of investing in taxable versus tax-qualified retirement accounts is lower in a low return setting. Finally, we show that people claim Social Security benefits later in a low interest rate environment.
This paper studies the long-run effects of credit market disruptions on real firm outcomes and how these effects depend on nominal wage rigidities at the firm level. I trace out the long-run investment and growth trajectories of firms which are more adversely affected by a transitory shock to aggregate credit supply. Affected firms exhibit a temporary investment gap for two years following the shock, resulting in a persistent accumulated growth gap. I show that affected firms with a higher degree of wage rigidity exhibit a steeper drop in investment and grow more slowly than affected firms with more flexible wages.
We shed new light on the macroeconomic effects of rising temperatures. In the data, a shock to global temperature dampens expenditures in research and development (R&D). We rationalize this empirical evidence within a stochastic endogenous growth model, featuring temperature risk and growth sustained through innovations. In line with the novel evidence in the data, temperature shocks undermine economic growth via a drop in R&D. Moreover, in our endogenous growth setting temperature risk generates non-negligible welfare costs (i.e., 11% of lifetime utility). An active government, which is committed to a zero fiscal deficit policy, can offset the welfare costs of global temperature risk by subsidizing the aggregate capital investment with one-fifth of total public spending.
After the Lehman-Brothers collapse, the stock index has exceeded its pre-Lehman-Brothers peak by 36% in real terms. Seemingly, markets have been demanding more stocks instead of bonds. Yet, instead of observing higher bond rates, paradoxically, bond rates have been persistently negative after the Lehman-Brothers collapse. To explain this paradox, we suggest that, in the post-Lehman-Brothers period, investors changed their perceptions on disasters, thinking that disasters occur once every 30 years on average, instead of disasters occurring once every 60 years. In our asset-pricing calibration exercise, this rise in perceived market fragility alone can explain the drop in both bond rates and price-dividend ratios observed after the Lehman-Brothers collapse, which indicates that markets mostly demanded bonds instead of stocks.
In the context of the upcoming Brexit, a relocation of the clearing of euro-OTC derivatives for EU-based firms is the subject of controversial discussion. The opponents of a relocation argue that a relocation would cause additional costs for market participants of up to USD 100 bn over a period of 5 years. This paper shows that this cost estimate is fairly unrealistic and that relocation costs would amount to approximately USD 0.6 bn p.a., which translates to cumulative costs of around USD 3.2 bn for a transition period of 5 years. In light of the strategic importance of systemically relevant CCPs for the financial stability of the eurozone, the potential relocation costs should not be a decision criterion.
Das Clearing von Euro-OTC-Derivaten post Brexit – eine Analyse der vorliegenden Kostenschätzungen
(2017)
Im Zusammenhang mit dem Brexit wird über die Kosten einer Relokation des Clearing des Euro-OTC-Derivate-Geschäftes auf ein EU-CCP diskutiert. Das vorliegende Papier zeigt, dass die bislang vorliegenden Kostenschätzungen, die von Kosten in Höhe von bis zu USD 100 Mrd. für einen Zeitraum von fünf Jahren ausgehen, viel zu hoch sind. Die erwarteten Kosten einer Relokation liegen vielmehr bei ca. USD 0,6 Mrd. p.a. bzw. ca. USD 3,2 Mrd. für eine Übergangsphase von fünf Jahren. Angesichts der hohen Bedeutung von systemrelevanten CCPs für die Stabilität der Eurozone sollten diese Kosten nicht entscheidungsrelevant für eine Relokation sein.
We establish a benchmark result for the relationship between the loanable funds and the money-creation approach to banking. In particular, we show that both processes yield the same allocations when there is no uncertainty and thus no bank default. In such cases, using the much simpler loanable funds approach as a shortcut does not imply any loss of generality.
The CLOUD (Cosmics Leaving OUtdoor Droplets) experiment at CERN is studying the nucleation and growth of aerosol particles under atmospheric conditions, and their activation into cloud droplets. A key feature of the CLOUD experiment is precise control of the experimental parameters. Temperature uniformity and stability in the chamber are important since many of the processes under study are sensitive to temperature and also to contaminants that can be released from the stainless steel walls by upward temperature fluctuations. The air enclosed within the 3 m CLOUD chamber is equipped with several arrays (strings) of high precision, fast-response thermometers to measure its temperature. Here we present a study of the air temperature uniformity inside the CLOUD chamber under various experimental conditions. Measurements were performed under calibration conditions and run conditions, which are distinguished by the flow rate of fresh air and trace gases entering the chamber: 20 l/min and up to 210 l/min, respectively. During steady-state calibration runs between −70 °C and +20 °C, the air temperature uniformity is better than +/−0.06 °C in the radial direction and +/−0.1 °C in the vertical direction. Larger non-uniformities are present during experimental runs, depending on the temperature control of the make-up air and trace gases (since some trace gases require elevated temperatures until injection into the chamber). The temperature stability is a few times 0.01 °C over periods of several hours during either calibration or steady-state run conditions. During rapid adiabatic expansions to activate cloud droplets and ice particles, the chamber walls are up to 10 °C warmer than the enclosed air. This results in larger non-uniformities while the air returns to its equilibrium temperature with time constant of about 200 s.
Information theory provides a formal framework within which information processing and its disorders can be described. However, information theory has rarely been applied to modeling aspects of the cognitive neuroscience of schizophrenia. The goal of this article is to highlight the benefits of an approach based on information theory, including its recent extensions, for understanding several disrupted neural goal functions as well as related cognitive and symptomatic phenomena in schizophrenia. We begin by demonstrating that foundational concepts from information theory—such as Shannon information, entropy, data compression, block coding, and strategies to increase the signal-to-noise ratio—can be used to provide novel understandings of cognitive impairments in schizophrenia and metrics to evaluate their integrity. We then describe more recent developments in information theory, including the concepts of infomax, coherent infomax, and coding with synergy, to demonstrate how these can be used to develop computational models of schizophrenia-related failures in the tuning of sensory neurons, gain control, perceptual organization, thought organization, selective attention, context processing, predictive coding, and cognitive control. Throughout, we demonstrate how disordered mechanisms may explain both perceptual/cognitive changes and symptom emergence in schizophrenia. Finally, we demonstrate that there is consistency between some information-theoretic concepts and recent discoveries in neurobiology, especially involving the existence of distinct sites for the accumulation of driving input and contextual information prior to their interaction. This convergence can be used to guide future theory, experiment, and treatment development.
Auf Grundlage einer interviewbasierten Studie zu heterosexuellen Paaren, in denen die Frau das Haupteinkommen verdient, beschäftigt sich der Beitrag mit milieuspezifischen Bewältigungsmustern prekärer Beschäftigungsverhältnisse. Vor dem Hintergrund der Erosion des Ernährermodells werden dabei Transformationen von Männlichkeit in den Blick genommen. Es wird die These entwickelt, dass sich mit dem Selbstverständnis als "Künstler" im hochqualifizierten individualisierten Milieu des urbanen Raums ein spezifisches Bewältigungsmuster von Prekarität herausgebildet hat.
The inner boundary and the cristae membrane are connected by pore-like structures termed crista junctions (CJs). The MICOS complex is required for CJ formation and enriched at CJs. Here, we address the roles of the MICOS subunits Mic27 and Mic10. We observe a positive genetic interaction between Mic27 and Mic60 and deletion of Mic27 results in impaired formation of CJs and altered cristae membrane curvature. Mic27 acts in an antagonistic manner to Mic60 as it promotes oligomerization of the F1FO-ATP synthase and partially restores CJ formation in cells lacking Mic60. Mic10 impairs oligomerization of the F1FO-ATP synthase similar to Mic60. Applying complexome profiling, we observed that deletion of Mic27 destabilizes the MICOS complex but does not impair formation of a high molecular weight Mic10 subcomplex. Moreover, this Mic10 subcomplex comigrates with the dimeric F1FO-ATP synthase in a Mic27-independent manner. Further, we observed a chemical crosslink of Mic10 to Mic27 and of Mic10 to the F1FO-ATP synthase subunit e. We corroborate the physical interaction of the MICOS complex and the F1FO-ATP synthase. We propose a model in which part of the F1FO-ATP synthase is linked to the MICOS complex via Mic10 and Mic27 and by that is regulating CJ formation.
Background: Computed-tomography-guided interventions are attractive for tissue sampling of paediatric tumor lesions; however, it comes with exposure to ionizing radiation. The aim of this study was to analyse the radiation dose, accuracy and speed of CT-guided interventions in paediatric patient cohort.
Methods: We retrospectively reviewed CT-guided interventions over a 10 -year period in 65 children. The intervention site consisted of bones in 38, chest (lung) in 15 and abdomen (liver, lymph nodes) in 12 cases. Radiation dose and duration of the procedures were analysed. The statistical analysis was performed using dedicated statistical software (BiAS 8.3.6 software, Epsilon Verlag, North Hasted).
Results: All interventions were performed successfully. Mean target access path to lesion within the patients was 6.0 cm (min 3.5 cm, max 11.2 cm). Time duration to complete intervention was 25:15 min (min 17:03 min, max 43:00 min). The dose-length product (DLP) of intervention scan was 29.5 mGy · cm (min 6 mGy · cm, max 85 mGy · cm) with the lowest dose for biopsies in the region of the chest (p = 0.04).
Conclusions: With justified indications, CT-guided paediatric interventions are safe, effective and can be performed both, with short intervention times and low radiation exposure.
Background: To meet the requirements imposed by the time-dependency of acute stroke therapies, it is necessary 1) to initiate structural and cultural changes in the breadth of stroke-ready hospitals and 2) to find new ways to train the personnel treating patients with acute stroke. We aimed to implement and validate a composite intervention of a stroke team algorithm and simulation-based stroke team training as an effective quality initiative in our regional interdisciplinary neurovascular network consisting of 7 stroke units.
Methods: We recorded door-to-needle times of all consecutive stroke patients receiving thrombolysis at seven stroke units for 3 months before and after a 2 month intervention which included setting up a team-based stroke workflow at each stroke unit, a train-the-trainer seminar for stroke team simulation training and a stroke team simulation training session at each hospital as well as a recommendation to take up regular stroke team trainings.
Results: The intervention reduced the network-wide median door-to-needle time by 12 minutes from 43,0 (IQR 29,8–60,0, n = 122) to 31,0 (IQR 24,0–42,0, n = 112) minutes (p < 0.001) and substantially increased the share of patients receiving thrombolysis within 30 minutes of hospital arrival from 41.5% to 59.6% (p < 0.001). Stroke team training participants stated a significant increase in knowledge on the topic of acute stroke care and in the perception of patient safety. The overall course concept was regarded as highly useful by most participants from different professional backgrounds.
Conclusions: The composite intervention of a binding team-based algorithm and stroke team simulation training showed to be well-transferable in our regional stroke network. We provide suggestions and materials for similar campaigns in other stroke networks.
Das Fahren ohne (gültigen) Fahrschein im ÖPNV ist bereits seit den 1960er Jahren ein Problem zahlreicher Verkehrsunternehmen. Auch für die ÖPNV-Nutzenden stellt es ein Problem dar, da Personen, die den ÖPNV ohne (gültiges) Ticket nutzen in Deutschland eine Straftat begehen. In der Wissenschaft wurde das Thema aus unterschiedlichen Perspektiven heraus untersucht (v.a. Rechtswissenschaften, Betriebswirtschaften, Kriminologie sowie einige sozialwissenschaftliche Ansätze), jedoch konzentriert sich die Forschung vorrangig auf sozio-demographische Charakteristika, Marktsegmentierungen und die Folgen des Fahrens ohne (gültigen) Fahrschein für Verkehrsunternehmen und -verbünde. Die Motive und Beweggründe des Fahrens ohne (gültigen) Fahrschein werden in den vorhandenen Studien lediglich objektiv betrachtet. Das Arbeitspapier zeigt die Ergebnisse einer Untersuchung der Motive des Fahrens ohne (gültigen) Fahrschein im Bediengebiet des Rhein-Main-Verkehrsverbundes (RMV), die mithilfe von qualitativen Interviews mit Personen, die bei einer Fahrkartenkontrolle kein (gültiges) Ticket vorzeigen konnten, exploriert wurden.
In recent years, interest in the environmental occurrence and effects of microplastics (MPs) has shifted towards our inland waters, and in this chapter we provide an overview of the issues that may be of concern for freshwater environments. The term ‘contaminant of emerging concern’ does not only apply to chemical pollutants but to MPs as well because it has been detected ubiquitously in freshwater systems. The environmental release of MPs will occur from a wide variety of sources, including emissions from wastewater treatment plants and from the degradation of larger plastic debris items. Due to the chemical makeup of plastic materials, receiving environments are potentially exposed to a mixture of micro- and nano-sized particles, leached additives, and subsequent degradation products, which will become bioavailable for a range of biota. The ingestion of MPs by aquatic organisms has been demonstrated, but the long-term effects of continuous exposures are less well understood. Technological developments and changes in demographics will influence the types of MPs and environmental concentrations in the future, and it will be important to develop approaches to mitigate the input of synthetic polymers to freshwater ecosystems.
The diagnosis that we are living in a world risk society formulated by Ulrich Beck 20 years ago (Beck, Kölner Z Soziol Sozialpsychol 36:119–147, 1996) has lost nothing of its power, especially against the background of the Anthropocene debate. “Global risks” have been identified which are caused by human activities, technology, and modernization processes. Microplastics are a by-product of exactly these modernization processes, being distributed globally by physical processes like ocean currents, and causing effects far from their place of origin. In recent years, the topic has gained great prominence, as microplastics have been discovered nearly everywhere in the environment, raising questions about the impacts on food for human consumption. But are microplastics really a new phenomenon or rather a symptom of an old problem? And exactly what risks are involved? It seems that the phenomenon has accelerated political action—the USA has passed the Microbead-Free Waters Act 2015—and industries have pledged to fade out the use of microbeads in their cosmetic products. At first sight, is it a success for environmentalists and the protection of our planet?
This chapter deals with these questions by adopting a social-ecological perspective, discussing microplastics as a global risk. Taking four main characteristics of global risks, we develop four arguments to discuss (a) the everyday production of risk by societies, (b) scientific risk evaluation of microplastics, (c) social responses, and (d) problems of risk management. To illustrate these four issues, we draw on different aspects of the current scientific and public debate. In doing so, we contribute to a comprehensive understanding of the social-ecological implications of microplastics.
The ubiquitous detection of microplastics in aquatic ecosystems promotes the concern for adverse impacts on freshwater ecosystems. The wide variety of material types, sizes, shapes, and physicochemical properties renders interactions with biota via multiple pathways probable.
So far, our knowledge about the uptake and biological effects of microplastics comes from laboratory studies, applying simplified exposure regimes (e.g., one polymer and size, spherical shape, high concentrations) often with limited environmental relevance. However, the available data illustrates species- and material-related interactions and highlights that microplastics represent a multifaceted stressor. Particle-related toxicities will be driven by polymer type, size, and shape. Chemical toxicity is driven by the adsorption-desorption kinetics of additives and pollutants. In addition, microbial colonization, the formation of hetero-aggregates, and the evolutionary adaptations of the biological receptor further increase the complexity of microplastics as stressors. Therefore, the aim of this chapter is to synthesize and critically revisit these aspects based on the state of the science in freshwater research. Where unavailable we supplement this with data on marine biota. This provides an insight into the direction of future research.
In this regard, the challenge is to understand the complex interactions of biota and plastic materials and to identify the toxicologically most relevant characteristics of the plethora of microplastics. Importantly, as the direct biological impacts of natural particles may be similar, future research needs to benchmark synthetic against natural materials. Finally, given the scale of the research question, we need a multidisciplinary approach to understand the role of microplastics in a multiple-particle world.
"Ihr sollt euch nicht zu den Götzen wenden, und gegossene Götter sollt ihr euch nicht machen [...](Lev 19,4) [...] sollen wir nicht meinen, daß das Göttliche dem Gold und Silber oder Stein, einem Gebilde der Kunst und der Erfindung des Menschen gleich sei. (Acta 17,29) Pfui über euch und über das, was ihr an Gottes Statt verehrt! [...] (Q 21,67)"
Diese drei Sätze stammen nacheinander aus der hebräischen Bibel, dem Neuen Testament und dem Koran. Man kann sie beinahe wie einen Text lesen, an dem sich die These des Ägyptologen Jan Assmann belegen ließe, dass mit der Herausbildung monotheistischer Religionen wie Judentum, Christentum und Islam im Allgemeinen und dem Bilderverbot im Besonderen die Unterscheidung zwischen wahr und falsch in die Götterwelt gekommen sei (Assmann 1998, S. 17). ...
Es wäre eine bessere Welt, würde es diese Bilder nicht geben: Die Rede ist von Darstellungen, die sexuellen Missbrauch von und sexualisierte Gewalt an Kindern und Jugendlichen zeigen. Die physischen und psychischen Verletzungen, die durch den Missbrauch, aber auch durch dessen Perpetuierung in Bildern verursacht werden, sind unermesslich. Daher greift die Gesellschaft zu einem ihrer schärfsten Schwerter – dem Strafrecht.
Mit flexiblen Video-Endoskopen gelingen heute hochaufgelöste Bilder des Magen-Darm-Traktes. Bösartige Tumoren werden früher erkannt und oft auch entfernt, ohne die Bauchdecke aufzuschneiden. Sogar Verengungen der Gallenwege lassen sich mit hochpräziser Endoskopietechnik darstellen und behandeln. Die Medizinische Klinik 1 der Universitätsklinik unter der Leitung von Prof. Dr. Stefan Zeuzem gehört zu den Pionieren auf diesem Gebiet.
Lieblingsbild
(2017)
In lebende Körper zu sehen, ohne das Messer anzusetzen, das war lange ein Traum von Wissenschaftlern und Ärzten. Was vor mehr als 120 Jahren mit Conrad Röntgens Entdeckung der X-Strahlen begann, hat sich mit Magnetenzephalographie und Magnetresonanztomographie zu gängigen Instrumenten der Hightech-Medizin entwickelt.
Lieblingsbild
(2017)
Dieses Bild ist wichtig, weil wir daran verstanden haben, wie in der Zelle fehlerhaftes Spleißen verhindert wird. Dazu muss man wissen, dass unsere Gene sich aus Exons und dazwischenliegenden Introns zusammensetzen. Während des Spleißens werden die Introns entfernt und die Exons in ein reifes Transkript zusammengefügt, das dann für ein Protein kodiert. Allerdings gibt es innerhalb der Introns viele Bereiche, die einem Exon sehr ähnlich sehen. Werden diese sogenannten "PseudoExons" fälschlicherweise während des Spleißprozesses erkannt und in das reife Transkript eingebaut, kann das fatale Folgen für das kodierte Protein und oft die gesamte Zelle haben. ...
Gleichungen mit mehreren Unbekannten zu lösen, üben Schüler schon in der Mittelstufe. Für die einen ist es eine spannende mathematische Knobelei, für die anderen eher Quälerei. Doch den wenigsten ist bewusst, wie viele Leben dadurch jeden Tag gerettet werden. Die moderne medizinische Bildgebung beruht darauf, sehr viele Gleichungen nach sehr vielen Unbekannten aufzulösen.
Comics sind ein überaus beliebtes Genre, vielleicht mehr denn je. Manga, aber auch Graphic Novels haben heute in jedem Buchladen ihre eigenen Regale. Aber worum handelt es sich eigentlich: um Bilder, die mit Text ergänzt werden, oder vice versa? Lesen wir oder schauen wir Comics, und warum lohnt es sich, dieses Misch-Genre zu erforschen? Darüber hat Dirk Frank mit Bernd Dolle-Weinkauff, Literaturwissenschaftler und Comic-Experte am Institut für Jugendbuchforschung, gesprochen.
Im Frankfurter Städel Museum ist ein Papst-Porträt zu sehen, das viele Geschichten erzählt: von Julius II., der als ebenso kriegerisch wie kunstsinnig galt, von einem Bildmotiv, das bis heute Standards setzt, und von technischen Methoden, die zeigen, dass hier wohl mehr Raffael drinsteckt, als manche wahrhaben wollen – wodurch das Bild rund 500 Jahre nach seiner Entstehung vielleicht selbst Geschichte schreibt.
Lieblingsbild
(2017)
Für Spezialisten historischer Epochen, aus denen kaum schriftliche Zeugnisse vorliegen, spielten Bilder schon immer eine zentrale Rolle. Doch wie steht es um ihre Bedeutung in der Geschichtswissenschaft allgemein? Welche Relevanz hatte bzw. hat für sie der "iconic turn"? Darüber sprach der Philosoph und Publizist Rolf Wiggershaus mit Historikern der Goethe-Universität.
In der Lichtmikroskopie gibt es heute viele fortgeschrittene Techniken, mit denen man beispielsweise das Wachstum lebender Organismen, kleinste Zellstrukturen oder das Eindringen von Bakterien in Zellen untersuchen kann. Die dafür benötigten Mikroskope sind teure Hightech-Geräte, deren Bedienung Übung erfordert. Damit die vorhandenen Geräte möglichst effizient genutzt werden können, hat die Goethe-Universität ihre Mikroskopie-Einrichtungen in verschiedenen Instituten auf dem Campus Riedberg im "Frankfurt Center for Advanced Light Microscopy" (FCAM) zusammengelegt. ...
Durchblicke im Rückblick : Prof. Jürgen Bereiter-Hahn über 40 Jahre Erfahrungen mit Lichtmikroskopie
(2017)
Ich bin Biologe. Das ist eine Wissenschaft, die sich mit Strukturen beschäftigt und diese sind besonders gut in Bildern darstellbar. Ich achte auch auf den ästhetischen Wert von Bildern, er trägt oft wesentlich zur Verständlichkeit der Aussage bei, besonders in Publikationen. Aber ich bin auch Wort-affin. Es ist mir sehr wichtig, gut zu formulieren. Ich habe auch Philosophie studiert und jetzt arbeite ich mehr in dieser Richtung. Derzeit beschäftige ich mich mit dem Verhältnis von Biologie und Normen. ...
Lieblingsbild
(2017)
Das Bild zeigt die Kryo-EM-Elektronendichtekarte des bakteriellen Kalium-Aufnahmesystems KtrAB mit ADP gebunden mit einer Auflösung von 6.6 Å. Das Bild ist mein Lieblingsbild, weil man bereits auf den ersten Blick eine dramatische Konformationsänderung im Vergleich zu einer früheren ATPgebundenen Struktur erkennen konnte, nämlich die Ausbildung langgestreckter α-Helices (hier gelb markiert), die die regulatorischen A-Untereinheiten (blau) mit den Kaliumionen-translozierenden B-Untereinheiten (grau) verbinden. ...
"Ästhetisch ist, was hilft"
(2017)
Lieblingsbild
(2017)
Das rechte Bild stellt die Elektronendichte eines menschlichen Proteins dar, gewonnen durch die Röntgenstrahl-Beugung an Kristallen dieses Proteins. Die Struktur hat Sagar Bhogaraju 2016 aufgeklärt. Das linke Bild stellt ein erstes Strukturmodell auf der Basis der gemessenen Elektronendichte dar. ...
Schönheit liegt auch in der Wissenschaft im Auge des Betrachters. So wie Eltern ihre Sprösslinge schön finden, schwärmen auch Forscher wie Mike Heilemann und Ivan Dikic von ihren Bildern fluoreszierender Bakterien. Doch wenn sie es auf das Cover einer Fachzeitschrift schaffen wollen, nehmen sie die Hilfe wissenschaftlicher Illustratorinnen wie Ella Marushchenko in Anspruch.
Lieblingsbild
(2017)
Was ist ein geographisches Bild? Darauf hat sicher jeder eine Antwort: Beim einen poppen im Kopf zunächst die Urlaubsfotos von der finnischen Schären-Küste oder aus Paris auf, die andere denkt an Satellitenaufnahmen des schwindenden Eisrandes der Arktis im GEO-Magazin oder an Claudia Kleinerts Wetterkarte in den Tagesthemen. Auf den ersten Blick scheint klar: alles Bilder, alles irgendwie geographisch.
Das Recht – abstrakt und bilderfeindlich? Ein Fehlurteil. Denn schon immer hat das Recht zu sinnlichen Hilfsmitteln gegriffen, um sich den Menschen verständlich zu machen, teils auf realer, besonders gern aber auf sprachlicher Ebene. Die heutige Bilderflut ist jedoch auch für die Rechtswissenschaft ein neues Phänomen.
Der Aufbau unserer Umwelt folgt bestimmten Regelmäßigkeiten, die für uns so selbstverständlich sind, dass wir ihrer kaum bewusst sind. Doch würden Sie die Milch unter dem Bett suchen oder das Kissen in der Badewanne? Wohl kaum. Die Psychologin Prof. Melissa Lê-Hoa Võ untersucht das erlernte Regelwerk, die Entwicklung von sogenanntem Szenenwissen, mithilfe psychophysischer Verfahren, Blickbewegungsund Hirnpotenzialmessungen.
Der Mensch besteht aus vielen Körperteilen, und doch ist es fast ausschließlich das Gesicht, an dem wir ein Individuum erkennen. Aber erkennen wir es wirklich? In Zeiten des Selfie-Kults und der biometrischen Verfahren ist diese Frage aktueller denn je. Wir leben in einer »fazialen« Gesellschaft: Das Gesicht ist Medium für alle erdenklichen Arten, sich mitzuteilen.
AKTIVA-MCI is a program for patients with mild cognitive impairment (MCI) that aims to enhance participation in cognitively stimulating leisure activities. Participation in cognitively stimulating activities seems to be a potential strategy for people with MCI delaying cognitive decline for a while. In total, 35 MCI patients were enrolled in the pilot study of whom 29 completed the whole program (16 female, 71.1±7.5 years; Mini Mental Status Examination score: 28±2.2). Daily activity protocols were used to measure the frequency of participation in cognitively stimulating activities during the program (12 sessions). Additional standardized psychometric tests and questionnaires were used to assess cognition, mood, and subjective memory decline. Analyses of the daily activity protocols showed that during the intervention participants increased the frequency of several cognitively stimulating leisure activities. Comparison of pre-post data indicates no changes in cognitive status, mood, and subjective memory decline. These findings indicate that the program is suitable for patients with MCI.
Die Arbeit untersucht am Fall der Religionspolitik in den Verfassungsgebungsprozessen der deutschen Bundesländer, ob Verfassungen eher das Ergebnis von Konflikt oder Konsens sind. Die Länderverfassungen zeigen eine hohe religionspolitische Vielfalt, die in dieser Arbeit erstmals vollständig erhoben und systematisiert wird. Die religionspolitischen Normen der Verfassungen werden vier Typen von Religionspolitik zugewiesen (Statusverleihung, Redistribution, Religionsfreiheit und Restriktion). Für die Verbreitung der einzelnen Normen werden die historischen Verläufe von 1919 bis 2015 analysiert und Trends beschrieben. Für die Erklärung der Unterschiede entwickelt die Arbeit ein ökonomisches Modell des Parteienwettbewerbs, in dem religiöse Parteien, insbesondere CDU und CSU, die zentrale Rolle spielen. In dem Modell wird angenommen, dass religiöse Parteien (einschließlich der Union) nur dann die Interessen nicht- und andersreligiöser Wähler berücksichtigen – wenn dies für ihren Wahlerfolg notwendig ist. Die zentrale Idee des Modells ist, dass religionspolitische Policies unterschiedliche Kosten und Nutzen für religiöse und nichtreligiöse Wähler implizieren. Diesen Kosten und Nutzen müssten religiöse Parteien Rechnung tragen, wenn sie Politikergebnis und Wahlergebnis gleichzeitig optimieren – d.h. rational abwägend agieren. Aus der Überprüfung dieses Modells lässt sich ableiten, ob die Religionspolitik in Verfassungen das Ergebnis offener Verhandlungen mit dem Ziel der Herstellung bzw. Abbildung eines gesellschaftlichen Konsenses sind – oder ob sie vielmehr das Ergebnis harter politischer Auseinandersetzungen sind und die gesellschaftlichen Machtverhältnisse reproduzieren. Je weniger Ersteres und je mehr Zweiteres gegeben ist, desto weniger können Verfassungen voraussetzungslos als Rahmen oder Bezugspunkt eines fairen politischen Wettstreits dienen. Die Arbeit belegt dieses Modell empirisch mit einem Mixed-Methods-Ansatz aus multiplen Regressionsanalysen und fuzzy set Qualitative Comparative Analysis (fsQCA).
Historically – if one can say that given the infancy of the field – environmental plastic debris has been the baby of marine research. Driven by the rediscovery of long forgotten, 1970s studies on the occurrence of small plastic fragments (today termed microplastics) in the oceans, oceanographers and marine biologists resurrected the topic in the early 2000s. Since then, the field has rapidly expanded and established that plastics are ubiquitous in the marine system, from the Arctic to Antarctic and from the surface to the deep sea. ...
The focus of this research was to understand the molecular mechanism that lies behind the insertion of tail-anchored membrane proteins into the ER membrane of yeast cells. State-of-art instruments such as LILBID, and Cryo-EM, combined with the introduction of direct electron detectors, were used to analyze the proteins that capture tail-anchored proteins near the ER membrane and help their releases from a chaperone, an ATPase named Get3. Get3 escorts TA proteins to the ER membrane, where both Get3 and the TA proteins interact sequentially to Get3 membrane bound receptors Get1 and Get2. Get1 and Get2 are homologs of mammalian WRB and CAML.
The native host was used to separately produce Get1, Get2, and the Get2/Get1 single chain constructs. The studies showed that when Get1 is expressed alone, Get1 does not seems to be located in the ER membrane but rather in microbodies like shape organelles (or peroxisome). Interestingly, Get1 seems to be located in the ER membrane when it is linked to Get2 as single chain construct.
The localization study of Get2/Get1 fused to GFP shows from the fluorescence intensity that Get2/Get1.GFP has a tube-like morphology or membrane-enclosed sacs (cisterna), implying that Get2/Get1 is actually targeted to the ER membrane and is likely functional. In other words, Get1 and Get2 stabilize each other in the ER membrane.
The expression of Get2/Get1 was found to be already optimum when expressed as single chain construct because the fluorescence counts did not improve when additives such as DMSO or histidine were added. However, when Get1 and Get2 are expressed separately, additives improve their protein production yield. In 1 liter culture, Get1 yield is increased by about 3 mg and Get2 by 1.8 mg. This can be explained by the space that Get1 and Get2 should occupy within the ER membrane as they must coexist with other membrane components to maintain the homeostasis of the cell. Hence, if there were no gain for single chain construct expression, it meant that Get2/Get1 was already well expressed on its own in ER membrane and has reached its optimum expression without the help of additives. The Get2/Get1 overexpression is more stable, tolerated and less toxic for the cells to express it at a high level.
DDM has proved to be the best detergent from the detergents tested to solubilize Get1, Get2, and Get2/Get1.
Thereafter, Get1, Get2 (data not shown), and Get2/Get1 were successfully purified in DDM micelles.
Furthermore, for the first time using LILBID, the actual study has shown that Get1 and Get2 are predominantly a heterotetramer (2xGet1 and 2xGet2) but higher oligomerization may exist as well.
Get3 binds to Get1 in a biphasic way with a specific strong binding of an affinity of 57 nM and the second of 740 nM nonspecific indicative of heterogeneity within the interaction between Get1 and Get3. This heterogeneity is caused by the presence of different conformation of either protein. However, in order to characterize a high-resolution structure model of a specific target one needs highly homogenous and identical molecules of the target protein or complex in solution. The homogeneity increases the chances of growing crystals during crystallography as the good homogeneity will likely generate a perfect packing of unit cells stack (also known as crystal lattice) in the three-dimensional spaces. The same truth goes for the single particles analysis Cryo-EM, especially for smaller complexes where having less or no conformation alterations of specific targets will enable the researcher to classify the particles in 2D and 3D, therefore improving the signal-to-noise-ratio that will ultimately lead to high-resolution structure determination.
Get1, Get2/Get1 and chimeric variants (tGet2/Get1, T4l.Get2/Get1, T4l.Get2.apocyte.Get1) were crystallized but none of the crystals could diffract due to heterogeneity.
This heterogeneity was not only occurring upon the binding of Get3 to its membrane receptors, but seems to be already present within the receptors themselves through possibly different conformation.
In this Ph.D. thesis, the heterogeneity of purified Get2 and Get1 as complex or individually in detergent is then, so far, the limiting factor for obtaining a high-resolution structure model of Get1 and Get2. As mentioned above, the heterogeneity observed was not due to the quality of the sample preparation but rather to the effect of different conformations that could have been native, or just because of the micelle used, as it was proven by the 3-D heterogeneity classification by Cryo-EM.
In general, crosslinking is one way to keep the integrity of protein complexes, however it appeared not to improve the sample quality when it was analyzed in micelles. Often the integrity of some membrane proteins is affected when they are solubilized and purified in detergents.
Finally, in this study, the structural map of Get2 and Get1 complex linked with chimeric protein T4 lysozyme and apocytochrome C b562RIL gene was obtained at 10 Å. However, this single chain construct has a density map corresponding to heterodimer species (one Get1 and Get2). Therefore, based on those data the tertiary structure of Get2/Get1 in micelle is poorly defined. It could be that the membrane extraction in DDM and the purification destabilizes the structure of the complex.
Mimetische Praktiken in der neueren Architektur : Prozesse und Formen der Ähnlichkeitserzeugung
(2017)
Praktiken des Zitierens, Kopierens, der Montage, des Rekonstruierens, der Analogiebildung und der Mimikry sind gängige Verfahren im architektonischen Alltag. Dennoch ist das Paradigma der Originalität bis heute beherrschend und verstellt oft den Blick auf mimetische Phänomene. Der Tagungsband versammelt zwölf im Jahr 2016 auf der Konferenz „Ähnlichkeit: Prozesse und Formen“ in der Bibliothek der Stiftung Werner Oechslin in Einsiedeln gehaltene Vorträge, ergänzt durch zwei Artikel der Herausgeberinnen. Der Fokus der Tagung lag auf aktuellen Forschungen zu Praktiken der Ähnlichkeitserzeugung in der neueren Architektur und wurde von Teilprojekten der DFG-SNF-Forschergruppe „Medien und Mimesis“ organisiert.
Juvenile neuronal ceroid lipofuscinosis (JNCL or Batten disease) caused by mutations in the CLN3 gene is the most prevalent inherited neurodegenerative disease in childhood resulting in widespread central nervous system dysfunction and premature death. The consequences of CLN3 mutation on the progression of the disease, on neuronal transmission, and on central nervous network dysfunction are poorly understood. We used Cln3 knockout (Cln3Δex1-6) mice and found increased anxiety-related behavior and impaired aversive learning as well as markedly affected motor function including disordered coordination. Patch-clamp and loose-patch recordings revealed severely affected inhibitory and excitatory synaptic transmission in the amygdala, hippocampus, and cerebellar networks. Changes in presynaptic release properties may result from dysfunction of CLN3 protein. Furthermore, loss of calbindin, neuropeptide Y, parvalbumin, and GAD65-positive interneurons in central networks collectively support the hypothesis that degeneration of GABAergic interneurons may be the cause of supraspinal GABAergic disinhibition.
Mutations are the ultimate basis of evolution, yet their occurrence rate is known only for few species. We directly estimated the spontaneous mutation rate and the mutational spectrum in the nonbiting midge C. riparius with a new approach. Individuals from ten mutation accumulation lines over five generations were deep genome sequenced to count de novo mutations that were not present in a pool of F1 individuals, representing parental genotypes. We identified 51 new single site mutations of which 25 were insertions or deletions and 26 single nucleotide mutations. This shift in the mutational spectrum compared to other organisms was explained by the high A/T content of the species. We estimated a haploid mutation rate of 2.1 × 10−9 (95% confidence interval: 1.4 × 10−9 – 3.1 × 10-9) that is in the range of recent estimates for other insects and supports the drift barrier hypothesis. We show that accurate mutation rate estimation from a high number of observed mutations is feasible with moderate effort even for nonmodel species.
The adaptive immune system is able to detect and destroy cells that are malignantly transformed or infected by intracellular pathogens. Specific immune responses against these cells are elicited by antigenic peptides that are presented on major histocompatibility complex class I (MHC I) molecules and recognized by cytotoxic T lymphocytes at the cell surface. Since these MHC I-presented peptides are generated in the cytosol by proteasomal protein degradation, they can be metaphorically described as a window providing immune cells with insights into the state of the cellular proteome. A crucial element of MHC I antigen presentation is the peptide-loading complex (PLC), a multisubunit machinery, which contains as key constituents the transporter associated with antigen processing (TAP) and the MHC I-specific chaperone tapasin (Tsn). While TAP recognizes and shuttles the cytosolic antigenic peptides into the endoplasmic reticulum (ER), Tsn samples peptides in the ER for their ability to form stable complexes with MHC I, a process called peptide proofreading or peptide editing. Through its selection of peptides that improve MHC I stability, Tsn contributes to the hierarchy of immunodominant peptide epitopes. Despite the fact that it concerns a key event in adaptive immunity, insights into the catalytic mechanism of peptide proofreading carried out by Tsn have only lately been gained via biochemical, biophysical, and structural studies. Furthermore, a Tsn homolog called TAP-binding protein-related (TAPBPR) has only recently been demonstrated to function as a second MHC I-specific chaperone and peptide proofreader. Although TAPBPR is PLC-independent and has a distinct allomorph specificity, it is likely to share a common catalytic mechanism with Tsn. This review focuses on the current knowledge of the multivalent protein–protein interactions and the concomitant dynamic molecular processes underlying peptide-proofreading catalysis. We do not only derive a model that highlights the common mechanistic principles shared by the MHC I editors Tsn and TAPBPR, and the MHC II editor HLA-DM, but also illustrate the distinct quality control strategies employed by these chaperones to sample epitopes. Unraveling the mechanistic underpinnings of catalyzed peptide proofreading will be crucial for a thorough understanding of many aspects of immune recognition, from infection control and tumor immunity to autoimmune diseases and transplant rejection.
Viewing of ambiguous stimuli can lead to bistable perception alternating between the possible percepts. During continuous presentation of ambiguous stimuli, percept changes occur as single events, whereas during intermittent presentation of ambiguous stimuli, percept changes occur at more or less regular intervals either as single events or bursts. Response patterns can be highly variable and have been reported to show systematic differences between patients with schizophrenia and healthy controls. Existing models of bistable perception often use detailed assumptions and large parameter sets which make parameter estimation challenging. Here we propose a parsimonious stochastic model that provides a link between empirical data analysis of the observed response patterns and detailed models of underlying neuronal processes. Firstly, we use a Hidden Markov Model (HMM) for the times between percept changes, which assumes one single state in continuous presentation and a stable and an unstable state in intermittent presentation. The HMM captures the observed differences between patients with schizophrenia and healthy controls, but remains descriptive. Therefore, we secondly propose a hierarchical Brownian model (HBM), which produces similar response patterns but also provides a relation to potential underlying mechanisms. The main idea is that neuronal activity is described as an activity difference between two competing neuronal populations reflected in Brownian motions with drift. This differential activity generates switching between the two conflicting percepts and between stable and unstable states with similar mechanisms on different neuronal levels. With only a small number of parameters, the HBM can be fitted closely to a high variety of response patterns and captures group differences between healthy controls and patients with schizophrenia. At the same time, it provides a link to mechanistic models of bistable perception, linking the group differences to potential underlying mechanisms.
The transporter associated with antigen processing (TAP) selectively translocates antigenic peptides into the endoplasmic reticulum. Loading onto major histocompatibility complex class I molecules and proofreading of these bound epitopes are orchestrated within the macromolecular peptide-loading complex, which assembles on TAP. This heterodimeric ABC-binding cassette (ABC) transport complex is therefore a major component in the adaptive immune response against virally or malignantly transformed cells. Its pivotal role predestines TAP as a target for infectious diseases and malignant disorders. The development of therapies or drugs therefore requires a detailed comprehension of structure and function of this ABC transporter, but our knowledge about various aspects is still insufficient. This review highlights recent achievements on the structure and dynamics of antigenic peptides in complex with TAP. Understanding the binding mode of antigenic peptides in the TAP complex will crucially impact rational design of inhibitors, drug development, or vaccination strategies.
Perfectionism nowadays is frequently understood as a multidimensional personality trait with two higher-order dimensions of perfectionistic strivings and perfectionistic concerns. While perfectionistic concerns are robustly found to correlate with negative outcomes and psychological malfunctioning, findings concerning the outcomes of perfectionistic strivings are inconsistent. There is evidence that perfectionistic strivings relate to psychological maladjustment on the one hand but to positive outcomes on the other hand as well. Moreover, perfectionistic strivings and perfectionistic concerns frequently showed substantial overlap. These inconsistencies of differential relations and the substantial overlap of perfectionistic strivings and perfectionistic concerns raise questions concerning the factorial structure of perfectionism and the meaning of its dimensions. In this study, several bifactor models were applied to disentangle the common variance of perfectionistic strivings and perfectionistic concerns at the item level using Hill et al.’s (2004) Perfectionism Inventory (PI). The PI measures a broad range of perfectionism dimensions by four perfectionistic strivings and four perfectionistic concerns subscales. The bifactor-(S – 1) model with one general factor defined by concern over mistakes as the reference facet, four specific perfectionistic strivings factors, and three specific perfectionistic concerns factors showed acceptable fit. The results revealed a clear separation between perfectionistic strivings and perfectionistic concerns, as the general factor represented concern over mistakes, while the perfectionistic strivings factors each explained a substantial amount of reliable variance independent of the general factor. As a result, factor scores of the specific perfectionistic strivings factors and the general factor had differential relationships with achievement motivation, neuroticism, conscientiousness, and self-efficacy that met with theoretical expectations, while results for manifest subscale scores were ambiguous. Our results question the existence of reliable sub-constructs of perfectionistic concerns independent of the general factor when defined by concern over mistakes.
Synaptic release sites are characterized by exocytosis-competent synaptic vesicles tightly anchored to the presynaptic active zone (PAZ) whose proteome orchestrates the fast signaling events involved in synaptic vesicle cycle and plasticity. Allocation of the amyloid precursor protein (APP) to the PAZ proteome implicated a functional impact of APP in neuronal communication. In this study, we combined state-of-the-art proteomics, electrophysiology and bioinformatics to address protein abundance and functional changes at the native hippocampal PAZ in young and old APP-KO mice. We evaluated if APP deletion has an impact on the metabolic activity of presynaptic mitochondria. Furthermore, we quantified differences in the phosphorylation status after long-term-potentiation (LTP) induction at the purified native PAZ. We observed an increase in the phosphorylation of the signaling enzyme calmodulin-dependent kinase II (CaMKII) only in old APP-KO mice. During aging APP deletion is accompanied by a severe decrease in metabolic activity and hyperphosphorylation of CaMKII. This attributes an essential functional role to APP at hippocampal PAZ and putative molecular mechanisms underlying the age-dependent impairments in learning and memory in APP-KO mice.
Although existing research has established that aesthetic pleasure and aesthetic interest are two distinct positive aesthetic responses, empirical research on aesthetic preferences usually considers only aesthetic liking to capture participants’ aesthetic response. This causes some fundamental contradictions in the literature; some studies find a positive relationship between easy-to-process stimulus characteristics and aesthetic liking, while others suggest a negative relationship. The present research addresses these empirical contradictions by investigating the dual character of aesthetic liking as manifested in both the pleasure and interest components. Based on the Pleasure-Interest Model of Aesthetic Liking (PIA Model; Graf and Landwehr, 2015), two studies investigated the formation of pleasure and interest and their relationship with aesthetic liking responses. Using abstract art as the stimuli, Study 1 employed a 3 (stimulus fluency: low, medium, high) × 2 (processing style: automatic, controlled) × 2 (aesthetic response: pleasure, interest) experimental design to examine the processing dynamics responsible for experiencing aesthetic pleasure versus aesthetic interest. We find that the effect of stimulus fluency on pleasure is mediated by a gut-level fluency experience. Stimulus fluency and interest, by contrast, are related through a process of disfluency reduction, such that disfluent stimuli that grow more fluent due to processing efforts become interesting. The second study employed product designs (bikes, chairs, and lamps) as stimuli and a 2 (fluency: low, high) × 2 (processing style: automatic, controlled) × 3 (product type: bike, chair, lamp) experimental design to examine pleasure and interest as mediators of the relationship between stimulus fluency and design attractiveness. With respect to lamps and chairs, the results suggest that the effect of stimulus fluency on attractiveness is fully mediated by aesthetic pleasure, especially in the automatic processing style. Conversely, disfluent product designs can enhance design attractiveness judgments due to interest when a controlled processing style is adopted.
Malignant brain tumors, including gliomas, brain metastases and anaplastic meningiomas, are associated with poor prognosis, and represent an unmet medical need. ASA404 (DMXAA), a vascular disrupting agent, has demonstrated promising results in several preclinical tumor models and early phase clinical trials. However, two phase III trials in non-small cell lung cancer reported insufficient results. The aim of the present study was to determine the effects of ASA404 on brain tumors. The effects of ASA404 were evaluated in vitro and in vivo using subcutaneous, and orthotopical models for malignant glioma (U-87, LN-229, U-251, LN-308 and Tu-2449), brain metastasis (HT-29) and malignant meningioma (IOMM-Lee). The acute effects of ASA404 on tumor tissue were analyzed using conventional and immunohistochemical staining techniques [hematoxylin and eosin, MIB-1 antibody/proliferation maker protein Ki-67, cleaved caspase-8, stimulator of interferon genes (STING), ionized calcium-binding adapter molecule 1]. Furthermore, the sizes of subcutaneous tumors were measured and the symptom-free survival rates of animals with intracranial tumors receiving ASA404 treatment were analyzed. ASA404 demonstrated low toxicity in vitro, but exhibited strong effects on subcutaneous tumors 24 h following a single dose of ASA404 (25 mg/kg). ASA404 induced necrosis, hemorrhages and inhibited the proliferation, and growth of tumors in the subcutaneous glioma models. However, ASA404 failed to demonstrate comparable effects in any of the intracranial tumor models examined and did not result in a prolongation of survival. Expression of STING, the molecular target of ASA404, and infiltration of macrophages, the cells mediating ASA404 activity, did not differ between subcutaneous and intracranial tumors. In conclusion, ASA404 demonstrates clear efficacy in subcutaneous tumor models, but has no relevant activity in orthotopic brain tumor models. The expression of STING and infiltration with macrophages were not determined to be involved in the differential activity observed among tumor models. It is possible that the low penetration of ASA-404 into the brain prevents concentrations sufficient enough reaching the tumor in order to exhibit acute effects in vivo.
Mathematische Basiskompetenzen gelten als wichtiger Prädiktor für die schulische Mathematikleistung. Ebenso offenbaren Studien eine prädiktive Wirkung des selbstregulierten Lernens auf die akademische Leistung. Die Ergebnisse mehrerer Studien zeigen, dass Kinder mit Migrationshintergrund im deutschen Schulsystem schlechter abschneiden. Schon in der Grundschule weisen diese Kinder im Fach Mathematik schlechtere Leistungen auf als ihre Mitschüler[innen] ohne Migrationshintergrund. Vermutlich kann dieser Umstand mit schlechteren Ausgangsbedingungen im mathematischen Vorwissen begründet werden. Darüber hinaus spielen auch mangelnde Sprachfähigkeiten in der Unterrichtssprache eine wichtige Rolle. Daher sollten die fehlenden Kompetenzen im Anfangsunterricht entwicklungsorientiert aufgebaut werden. Zusätzlich sollten auch Methoden zum selbstregulierten Lernen frühzeitig vermittelt werden, da diese Fähigkeit die Übertragung fachlicher Förderungen auf weiterführende Inhalte erleichtert und eine Voraussetzung für die gelingende Umsetzung verschiedener Unterrichtsmethoden darstellt. In der Praxis werden entsprechende Konzepte bislang allerdings nur vereinzelt umgesetzt.
In der vorliegenden Studie sollten daher die Lernvoraussetzungen von Kindern mit Migrationshintergrund in den mathematischen Basiskompetenzen und im selbstregulierten Lernen überprüft werden. Im Anschluss hieran sollte erprobt werden, ob sich die Kombination aus einem Training zur Förderung mathematischer Basiskompetenzen sowie einem Programm zur Förderung selbstregulierten Lernens als Unterrichtskonzept für den Anfangsunterricht mit Kindern mit Migrationshintergrund eignet und hiermit die Disparitäten in den Lernvoraussetzungen der migrierten Kinder ausgeglichen werden können. Hierfür wurde das ursprünglich für den vorschulischen Einsatz konzipierte Trainingsprogramm „Mengen, zählen, Zahlen“ (MZZ, Krajewski, Nieding & Schneider 2007) sowie ein von Otto (2007) ausgearbeitetes Konzept mit selbstregulativen Inhalten (SRL) für den unterrichtsintegrierten Einsatz im Erstunterricht adaptiert. Für die Teilnahme an der Studie konnten 30 Grundschulklassen rekrutiert werden. 517 Schüler[innen] wurden klassenweise einer von drei Versuchsbedingungen zugeordnet: (1) Der ersten Experimentalgruppe, in der die Trainingskombination in der Reihenfolge erst SRL, dann MZZ durchgeführt wurde (EGSRL+MZZ) oder (2) der zweiten Experimentalgruppe, die die Trainingskombination in der umgekehrten Reihenfolge (EGMZZ+SRL) erhielt oder (3) der Kontrollgruppe (KG), in der der reguläre Mathematikunterricht erfolgte. Die Durchführung der Trainingskombination wurde von den jeweiligen Mathematiklehrkräften vorgenommen. Vor der Implementierung der Trainingsprogramme erfolgte eine Erfassung der mathematischen Basiskompetenzen, der Fähigkeiten im selbstregulierten Lernen sowie der Fähigkeiten im Wortverständnis. Zur Überprüfung der Wirksamkeit wurden im Anschluss an die Durchführung der Trainingskombination diese Fähigkeiten erneut erhoben. Zudem wurde die Transferwirkung auf die Fähigkeiten im Basisrechnen untersucht. Ein halbes Jahr später erfolgte eine Follow-up-Untersuchung, bei der abermals die Fähigkeiten im selbstregulierten Lernen sowie der Transfer auf das Basisrechnen und die curriculare Mathematikleitung erfasst wurden.
Die Ergebnisse offenbarten für Kinder mit Migrationshintergrund ein schlechteres Vorwissen in den mathematischen Basiskompetenzen. Hinsichtlich der Fähigkeiten im selbstregulierten Lernen konnten keine Unterschiede gefunden werden. Die Ergebnisse des Posttests konnten einen größeren Kompetenzzuwachs in den mathematischen Basiskompetenzen bei den Kindern mit Migrationshintergrund der ersten Experimentalgruppe (EGSRL+MZZ) im Vergleich zu den Kindern mit Migrationshintergrund der Kontrollgruppe nachweisen. Zudem zeigten sich positive Transfereffekte auf das Basisrechnen. Transfereffekte auf die curriculare Mathematikleistung wurden bei den Kindern mit Migrationshintergrund dagegen nicht ersichtlich. Hinsichtlich der Fähigkeiten im selbstregulierten Lernen ließen sich bei den Kindern mit Migrationshintergrund keine Trainingseffekte aufdecken. In Bezug auf die Kompensation der lückenhaften Lernvoraussetzungen in den mathematischen Basiskompetenzen bei Kindern mit Migrationshintergrund konnte für die erste Experimentalgruppe (EGSRL+MZZ) ein höherer Lernzuwachs bei Kindern nicht deutscher Herkunft festgestellt werden. Bei der zweiten Experimentalgruppe (EGMZZ+SRL) zeigten sich zwar keine Unterschiede zwischen Kindern mit und ohne Migrationshintergrund, doch es offenbarte sich, dass Kinder mit deutscher Muttersprache von der Trainingskombination im Hinblick auf ihre mathematischen Basiskompetenzen mehr profitieren. Die Ergebnisse verweisen auf die Bedeutung der sprachlichen Fähigkeiten bei der entwicklungsorientierten Förderung mathematischer Kompetenzen und werden vor dem Hintergrund einer Ausarbeitung zu einem flächendeckend einsetzbaren Unterrichtskonzept diskutiert.
The detailed biophysical mechanisms through which transcranial magnetic stimulation (TMS) activates cortical circuits are still not fully understood. Here we present a multi-scale computational model to describe and explain the activation of different pyramidal cell types in motor cortex due to TMS. Our model determines precise electric fields based on an individual head model derived from magnetic resonance imaging and calculates how these electric fields activate morphologically detailed models of different neuron types. We predict neural activation patterns for different coil orientations consistent with experimental findings. Beyond this, our model allows us to calculate activation thresholds for individual neurons and precise initiation sites of individual action potentials on the neurons’ complex morphologies. Specifically, our model predicts that cortical layer 3 pyramidal neurons are generally easier to stimulate than layer 5 pyramidal neurons, thereby explaining the lower stimulation thresholds observed for I-waves compared to D-waves. It also shows differences in the regions of activated cortical layer 5 and layer 3 pyramidal cells depending on coil orientation. Finally, it predicts that under standard stimulation conditions, action potentials are mostly generated at the axon initial segment of cortical pyramidal cells, with a much less important activation site being the part of a layer 5 pyramidal cell axon where it crosses the boundary between grey matter and white matter. In conclusion, our computational model offers a detailed account of the mechanisms through which TMS activates different cortical pyramidal cell types, paving the way for more targeted application of TMS based on individual brain morphology in clinical and basic research settings.
Die Frankfurter Dissertation von Alexander Krey ist für den Themenkomplex "Rechtsräume" von besonderer Bedeutung. Unter den Leitbegriffen "Gerichtslandschaften" und "Rechtslandschaften" wird anhand der Oberhöfe im Rhein-Main-Gebiet des Spätmittelalters eine vergleichende Untersuchung vorgelegt, die zeigen soll, dass diese juristisch-geographischen Raumbildungen zu einer "Umwälzung in den vielschichtigen Gerichtslandschaften führte, in welche die jeweiligen Oberhöfe eingebettet waren", auch wenn der Terminus "Oberhof" selbst aus der Frühneuzeit stammt. Die bestimmende Frage ist, ob eine "Pluralität lokaler Rechtsordnungen anstelle des einen gemeinen deutschen Rechts" angenommen werden kann. Welchen Stellenwert nehmen Wechselwirkungen zwischen den regional beschränkt wirkenden Oberhöfen ein? Als Untersuchungsgegenstand wählt Krey, wie gesagt, das Rhein-Main-Gebiet, im Einzelnen Frankfurt, Gelnhausen und Ingelheim. ...
Research in cell and developmental biology requires the application of three-dimensional model systems that reproduce the natural environment of cells. Processes in developmental biology are therefore studied in entire systems like insects or plants. In cell biology, three-dimensional cell cultures (e.g. spheroids or organoids) model the physiology and pathology of cells, tissues or organs. In all systems, the cellular neighborhood and interactions, but also physicochemical influences, are realistically presented. The production and handling of these model systems is rather simple and allows for reproducible characterization.
Confocal and light sheet-based fluorescence microscopy (LSFM) enable the observation of these systems while maintaining their three-dimensional integrity. LSFM is applicable to imaging live samples at high spatio-temporal resolution over long periods of time. The quality of the acquired datasets enables the extraction of quantitative features about morphology, functionality and dynamics in the context of the complete system. This approach is referred to as image-based systems biology. Exploiting the potential of the generated datasets requires an image analysis pipeline for data management, visualization and the retrieval of biologically meaningful values.
The goal of this thesis was to identify, develop and optimize modules of the image analysis pipeline. The modules cover data management and reduction, visualization, reconstruction of multiview image datasets, the segmentation and tracking of cell nuclei and the extraction of quantitative features. The modules were developed in an application-driven manner to test and ensure their applicability to real datasets from three-dimensional fluorescence microscopy. The underlying datasets were taken from research projects in developmental biology in insects and plants, as well as from cell biology.
The datasets acquired in fluorescence microscopy are typically complex and require common image processing steps in order to manage, visualize, and analyze the datasets. The first module accomplishes automatic structuring of large image datasets, reduces the data amount by image cropping and compression and computes maximum projection images along different spatial directions. The second module corrects for intensity variations in the generated maximum projection images that occur as a function of time. The program was published as a part of an article in Nature Protocols. Another developed module named BugCube provides a web-based platform to visualize and share the processed image datasets.
In LSFM, samples can be rotated in-between two acquisitions enabling the generation of multiview image datasets. Prior to my work, Frederic Strobl and Alexander Ross acquired the complete embryogenesis of the red flour beetle, Tribolium castaneum, and the field cricket, Gryllus bimaculatus, with LSFM. I evaluated a plugin for the software FIJI as a module for the reconstruction of such datasets. The plugin was optimized for automation and efficiency. We obtained the first high quality three-dimensional reconstructions of Tribolium and Gryllus datasets.
Optical clearing increases the penetration depth into samples, thus providing endpoint images of entire three-dimensional objects with cellular detail. This work contributes a quantitative characterization module that was applied to endpoint images of optically cleared spheroids. A program for the generation of ground truth datasets was developed in order to evaluate the cell nuclei segmentation performance. The program was part of a paper that was published in BMC Bioinformatics. Using the program, I could show that the cell nuclei segmentation is robust and accurate. Approaches from computational topology and graph theory complete the segmentation of cell nuclei. Thus, the developed module provides a comprehensive quantitative characterization of spheroids on the level of the individual cell, the cell neighborhood and the whole cell aggregate. The module was employed in four applications to analyze the influence of different stress conditions on the morphology and cellular arrangement of cells in spheroids. The module was accepted for publication in Scientific Reports along with the results for one application. The cell nuclei segmentation further provided a data source for simulation models that used correlation functions to identify structural zones in spheroids. These results were published in Royal Society Interface.
The final part of this work presents a module for cell tracking and lineage reconstruction. In collaboration with Dr. Alexis Maizel, Dr. Jens Fangerau and Dr. Daniel von Wangenheim, I developed a module to track the positions of all cells involved in lateral root formation in Arabidopsis thaliana and used the extracted positions for extensive data analysis. We reconstructed the cell lineages and established the first atlas of all founder cells that contribute to the formation. The analysis of the retrieved data allowed us to study conserved and individual patterns in lateral root formation. The atlas and parts of the analysis presented in this thesis were published in Current Biology.
In this thesis, I developed modules for an image analysis pipeline in three-dimensional fluorescence microscopy and applied them in interdisciplinary research projects. The modules enabled the organization, processing, visualization and analysis of the datasets. The perspective of the image analysis pipeline is not restricted to image-based systems biology. With ongoing development of the image analysis pipeline, it can also be a valuable tool for medical diagnostics or industrial high-throughput approaches.
The full-length translation-regulating add adenine riboswitch (Asw) from Vibrio vulnificus has a more complex conformational space than its isolated aptamer domain. In addition to the predicted apo (apoA) and holo conformation that feature the conserved three-way junctional purine riboswitch aptamer, it adopts a second apo (apoB) conformation with a fundamentally different secondary structure. Here, we characterized the ligand-dependent conformational dynamics of the full-length add Asw by NMR and by single-molecule FRET (smFRET) spectroscopy. Both methods revealed an adenine-induced secondary structure switch from the apoB-form to the apoA-form that involves no tertiary structural interactions between aptamer and expression platform. This strongly suggests that the add Asw triggers translation by capturing the apoA-form secondary structure in the holo state. Intriguingly, NMR indicated a homogenous, docked aptamer kissing loop fold for apoA and holo, while smFRET showed persistent aptamer kissing loop docking dynamics between comparably stable, undocked and docked substates of the apoA and the holo conformation. Unraveling the folding of large junctional riboswitches thus requires the integration of complementary solution structural techniques such as NMR and smFRET.
SDF-1/CXCR4 expression in head and neck cancer and outcome after postoperative radiochemotherapy
(2017)
Introduction: Outcome after postoperative radiochemotherapy (RT-CT) for patients with advanced head and neck squamous cell carcinomas (HNSCC) remains unsatisfactory, especially among those with HPV negative tumours. Therefore, new biomarkers are needed to further define subgroups for individualised therapeutic approaches. Preclinical and first clinical observations showed that the chemokine receptor CXCR4 and its ligand SDF-1 (CXCL12) play an important role in tumour cell proliferation, survival, cancer progression, metastasis and treatment resistance. However, the data on the prognostic value of SDF-1/CXCR4 expression for HNSCC are conflicting. The aim of our hypothesis-generating study was to retrospectively explore the prognostic potential of SDF-1/CXCR4 in a well-defined cohort of HNSCC patients collected within the multicenter biomarker study of the German Cancer Consortium Radiation Oncology Group (DKTK-ROG).
Material and methods: Patients with stage III and IVA HNSCC of the oral cavity, oropharynx and hypopharynx were treated with resection and adjuvant radiotherapy (RT) with ≥60 Gy and concurrent cisplatin-based chemotherapy (CT). Tissue micro-arrays (TMAs) from a total of 221 patients were generated from surgical specimens, 201 evaluated for the SDF-1 and CXCR4 expression by immunofluorescence and correlated with clinico-pathological and outcome data.
Results: In univariate and multivariate analyses intracellular SDF-1 expression was associated with lower loco-regional control (LRC) in the entire patient group as well as in the HPV16 DNA negative subgroup. CXCR4 expression showed a trend for lower LRC in the univariate analysis which was not confirmed in the multivariate analysis. Neither for SDF-1 nor CXCR4 expression associations with distant metastasis free or overall survival were found.
Conclusions: Our exploratory data support the hypothesis that overexpression of intracellular SDF-1 is an independent negative prognostic biomarker for LRC after postoperative RT-CT in high-risk HNSCC. Prospective validation is warranted and further exploration of SDF-1/CXCR4 as a potential therapeutic target to overcome treatment resistance in HNSCC appears promising.
Motivated by the necessary replacement of the GSI UNILAC poststripper linac, a compact and efficient linac design based on IH-type cavities has been developed. Using KONUS beam dynamics, it was possible to design a linac consisting of only five cavities that can be operated by the existing UNILAC RF amplifier structure. The transversal focusing scheme is based on magnetic quadrupole triplet lenses. The optimized design provides full transmission and low emittance growth for the design current of 15 emA U28+, accelerating the beam from 1.4 MeV/u to 11.4 MeV/u. Extensive error studies were performed to define tolerances and verify the stability of the design with respect to misalignment and injection parameters. The design provides a compact and cost effective alternative to a new Alvarez linac. With a total length of just 22.8 meters it will leave room for future energy upgrades in the UNILAC tunnel.
The Earth's future depends on how we manage the manifold risks of climate change (CC). It is state-of-the-art to assume that risk reduction requires participatory management involving a broad range of stakeholders and scientists. However, there is still little knowledge about the optimal design of participatory climate change risk management processes (PRMPs), in particular with respect to considering the multitude of substantial uncertainties that are relevant for PRMPs. To support the many local to regional PRMPs that are necessary for a successful global-scale reduction of CC risks, we present a roadmap for designing such transdisciplinary knowledge integration processes. The roadmap suggests ways in which uncertainties can be comprehensively addressed within a PRMP. We discuss the concept of CC risks and their management and propose an uncertainty framework that distinguishes epistemic, ontological, and linguistic uncertainty as well as ambiguity. Uncertainties relevant for CC risk management are identified. Communicative and modeling methods that support social learning as well as the development of risk management strategies are proposed for each of six phases of a PRMP. Finally, we recommend how to evaluate PRMPs as such evaluations and their publication are paramount for achieving a reduction of CC risks.
In patients with glioblastoma, antiangiogenic therapy with bevacizumab (BEV) has been shown to improve progression-free survival (PFS), but not overall survival (OS). Especially in patients with an unusual infiltrative phenotype as seen in multifocal glioblastoma, the use of BEV therapy is still more controversial. Therefore, we prepared a retrospective case series with 16 patients suffering from a multifocal glioblastoma treated with BEV. We compared these patients to a matched control cohort of 16 patients suffering from glioblastoma with a single lesion treated with BEV. The objective of this study was to evaluate whether the course of disease differs in glioblastoma patients with a multifocal disease pattern compared to those with a single lesion only. Patients were treated with BEV monotherapy or BEV in combination with irinotecan or lomustine (CCNU). Response rates and PFS were similar in both groups. There was a trend for an unfavorable OS in the patient group with multifocal glioblastoma, which was expected due to the generally worse prognosis of multifocal glioblastoma. We investigated whether BEV therapy affects the invasive growth pattern as measured by the appearance of new lesions on magnetic resonance imaging (MRI). Under BEV therapy, there was a trend for a lower frequency of new lesions both in multifocal and solitary glioblastoma. Based on these results, BEV therapy at relapse appears to be justified to no lesser extent in multifocal glioblastoma than in solitary glioblastoma.
This article describes the motion database for a large sample (n = 2400) of 7-m penalty throws in team handball that includes 1600 disguised throws. Throws were performed by both novice (n = 5) and expert (n = 5) penalty takers. The article reports the methods and materials used to capture the motion data. The database itself is accessible for download via JLU Web Server and provides all raw files in a three-dimensional motion data format (.c3d). Additional information is given on the marker placement of the penalty taker, goalkeeper, and ball together with details on the skill level and/or playing history of the expert group. The database was first used by Helm et al. (2017) to investigate the kinematic patterns of disguised movements. Results of this analysis are reported and discussed in their article "Kinematic patterns underlying disguised movements: Spatial and temporal dissimilarity compared to genuine movement patterns" (doi:10.1016/j.humov.2017.05.010).