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Ein Vorkommen der nordamerikanischen Adventivart Heterotheca camporum (Asteraceae) wurde im November 2014 in Frankfurt am Main entdeckt. Die Population auf einer städtischen Brachfläche bestand aus mehr als 60 Exemplaren und hatte reichlich Samen gebildet. Die Art und Weise der Einschleppung sowie die taxonomische Identität werden diskutiert. Die Pflanzen sind der var. glandulissima zuzuordnen. Vermutlich geht das Vorkommen auf eine Verwilderung aus Kultur zurück.
t is becoming less and less controversial that we ought to aggressively combat climate change. One main reason for doing so is concern for future generations, as it is they who will be the most seriously affected by it. Surprisingly, none of the more prominent deontological theories of intergenerational justice can explain why it is wrong for the present generation to do very little to stop worsening the problem. This paper discusses three such theories, namely indirect reciprocity, common ownership of the earth and human rights. It shows that while indirect reciprocity and common ownership are both too undemanding, the human rights approach misunderstands the nature of our intergenerational relationships, thereby capturing either too much or too little about what is problematic about climate change. The paper finally proposes a way to think about intergenerational justice that avoids the pitfalls of the traditional theories and can explain what is wrong with perpetuating climate change.
During January/February 2013, at the High Alpine Research Station Jungfraujoch a measurement campaign was carried out, which was centered on atmospheric ice-nucleating particles (INP) and ice particle residuals (IPR). Three different techniques for separation of INP and IPR from the non-ice-active particles are compared. The Ice Selective Inlet (ISI) and the Ice Counterflow Virtual Impactor (Ice-CVI) sample ice particles from mixed phase clouds and allow for the analysis of the residuals. The combination of the Fast Ice Nucleus Chamber (FINCH) and the Ice Nuclei Pumped Counterflow Virtual Impactor (IN-PCVI) provides ice-activating conditions to aerosol particles and extracts the activated INP for analysis.Collected particles were analyzed by scanning electron microscopy and energy-dispersive X-ray microanalysis to determine size, chemical composition and mixing state. All INP/IPR-separating techniques had considerable abundances (median 20 – 70 %) of instrumental contamination artifacts (ISI: Si-O spheres, probably calibration aerosol; Ice-CVI: Al-O particles; FINCH+IN-PCVI: steel particles). Also, potential sampling artifacts (e.g., pure soluble material) occurred with a median abundance of < 20 %. While these could be explained as IPR by ice break-up, for INP their IN-ability pathway is less clear. After removal of the contamination artifacts, silicates and Ca-rich particles, carbonaceous material and metal oxides were the major INP/IPR particle types separated by all three techniques. Soot was a minor contributor. Lead was detected in less than 10 % of the particles, of which the majority were internal mixtures with other particle types. Sea-salt and sulfates were identified by all three methods as INP/IPR. Most samples showed a maximum of the INP/IPR size distribution at 400 nm geometric diameter. In a few cases, a second super-micron maximum was identified. Soot/carbonaceous material and metal oxides were present mainly in the submicron range. ISI and FINCH yielded silicates and Ca-rich particles mainly with diameters above 1 μm, while the Ice-CVI also separated many submicron IPR. As strictly parallel sampling could not be performed, a part of the discrepancies between the different techniques may result from variations in meteorological conditions and subsequent INP/IPR composition. The observed differences in the particle group abundances as well as in the mixing state of INP/IPR express the need for further studies to better understand the influence of the separating techniques on the INP/IPR chemical
composition.
International society consists of states and the rules and institutions they share. Although international society has become a mundane feature of the world and the principal research focus of International Relations, it has become meaningless. More specifically, the technical rules that determine what states are and how they relate to other features of the world are units of semantic meaning, but their rampant, unprincipled proliferation has corroded their capacity to contain existential meaning. This deterioration is to be deplored because it alienates subjects from each other, it is totalising and excludes alternatives, and it is theoretically irreversible. To connect the two kinds of meaning, the first step is to reconceptualise international society as consisting strictly of constitutive rules whose meaning depends on the context they jointly compose, which implies that these rules can in turn be represented as signs in a semiotic structure. In order to evaluate the capacity of the signs to contain existential meaning, the next step is to adapt Baudrillard’s hierarchical typology of semiotic systems, ranging from the most meaningful systems based on symbolic exchange value to the vapid terminus of hyperreality based on sign value, in which semantic meaning is without value and existential meaning is impossible. The narrative traces the history of the signs of international law from the premodern period, when Christendom was understood as an approximation of the divine kingdom and a vehicle for salvation, to the present postmodern period, in which hundreds of articles of international maritime law make the decision to go to war over isolated rocks intelligible – even rational – and international trade law catalogues potato products to six digits. Three cases in particular exemplify this devolution in international law: the laws determining the territorial sea, the most-favoured national principle of international trade law, and nationality as a normative basis for statehood.
A handling study to assess use of the Respimat(®) Soft Mist™ inhaler in children under 5 years old
(2015)
Background: Respimat® Soft Mist™ Inhaler (SMI) is a hand-held device that generates an aerosol with a high, fine-particle fraction, enabling efficient lung deposition. The study objective was to assess inhalation success among children using Respimat SMI, and the requirement for assistance by the parent/caregiver and/or a valved holding chamber (VHC).
Methods: This open-label study enrolled patients aged <5 years with respiratory disease and history of coughing and/or recurrent wheezing. Patients inhaled from the Respimat SMI (air only; no aerosol) using a stepwise configuration: “1” (dose released by child); “2” (dose released by parent/caregiver), and “3” (Respimat SMI with VHC, facemask, and parent/caregiver help). Co-primary endpoints included the ability to perform successful inhalation as assessed by the investigators using a standardized handling questionnaire and evaluation of the reasons for success. Inhalation profile in the successful handling configuration was verified with a pneumotachograph. Patient satisfaction and preferences were investigated in a questionnaire.
Results: Of the children aged 4 to <5 years (n=27) and 3 to <4 years (n=30), 55.6% and 30.0%, respectively, achieved success without a VHC or help; with assistance, another 29.6% and 10.0%, respectively, achieved success, and the remaining children were successful with VHC. All children aged 2 to <3 years (n=20) achieved success with the Respimat SMI and VHC. Of those aged <2 years (n=22), 95.5% had successful handling of the Respimat SMI with VHC and parent/caregiver help. Inhalation flow profiles generally confirmed the outcome of the handling assessment by the investigators. Most parent/caregiver and/or child respondents were satisfied with operation, instructions for use, handling, and ease of holding the Respimat SMI with or without a VHC.
Conclusions: The Respimat SMI is suitable for children aged <5 years; however, children aged <5 years are advised to add a VHC to complement its use.
The pA system is typically regarded in heavy ion collisions as a “cold” nuclear matter environment and thought to isolate and identify initial state effects due to the presence of multiple nucleons in the incoming nucleus. Moreover, pA collisions bridge the gap between peripheral AA collisions and the pp baseline to create a more complete understanding of underlying production mechanisms and how they evolve with multiplicity. Recent measurements at both RHIC and the LHC provide an indication, however, that the “cold” nuclear matter picture may be somewhat naïve.
Recent LHC results from the 2013 p–Pb run at √sNN = 5.02 TeV will be discussed.
Structural characterization of stressosome complexes by single-particle cryo-electron microscopy
(2015)
The stressosome is a Mega Dalton macromolecular complex involved in stress adaptation in bacteria. Stressosomes are considered as stress signaling hubs. They are able to perceive a variety of different stress stimuli and transduce them into one single cellular answer, which is the initialization of a transcriptional up-regulation of hundreds of different genes encoding for universal but also very specific stress response proteins.
The stressosome of Bacillus subtilis became a prime example for this intriguing stress-triggered transcriptional regulation when its architecture was determined by Single-particle cryo-electron microscopy (cryo-EM) in 2008. In Gram-positive Bacillus species, the stressosome complex senses changes in salt concentration, ethanol content, blue-light, heat or acid stress contributing to the general stress response by activation of the alternative σB factor. σB is a transcriptional promoter that initiates the transcription of over 150 general stress genes, e.g., genes that encode osmolyte transporters to counteract osmotic and chill stress. The B. subtilis stressosome (stressosome_Bc) is composed of multiple copies of the 3 proteins: RsbR, RsbS and RsbT. These three Rsb proteins (Regulator of Sigma B) are found clustered in one operon forming the conserved RST module. RsbS and RsbR are scaffold proteins comprising a STAS domain, respectively. Because these domains are dominantly associated to sulfate transporters and anti-sigma antagonist they were named STAS domains, however, they were also identified in other sensor proteins. In the stressosome they form the internal ball-shaped core, while the N-terminal globin-fold sensor domain of RsbR, protruding to the outside, facilitates stress sensing. It is assumed that the stress signal is transduced to the stressosome core via the STAS domain resulting in conformational changes of the core. These changes affect the binding of the third protein, RsbT, a serin-threonine kinase. As a direct consequence of stress sensing the RsbT kinase is released from the complex to start an activation cascade involving the stepwise activation of RsbU, V, W, and X, which are all part of the same operon, and finally of σB. In Bacillus species, several RsbR orthologs were identified varying mainly in the sequence of the N-terminal sensor domains. It is assumed that the stressosome_Bc assembles with a still unknown combination of RsbR orthologs allowing for the broad spectrum of stress stimuli that can be processed in vivo. The pathogenic bacteria Listeria monocytogenes is a close relative of Bacillus. Its potent stress response allows Listeria to survive the harsh environmental conditions during host infection and therefore the stress regulation machinery is contributing heavily to the virulence of this pathogen. In Listeria the Rsb operon is conserved and highly homologous to the Bacillus one. In the frame of this thesis, the in vitro assembly of Listeria innocua stressosomes was shown for the first time by Single-particle (SP) negative stain EM. Moreover, binding of Listeria RsbT to the assembled RsbR-RsbS complex was demonstrated biochemically.
Despite the conservation of the RST-module the entire Rsb operon is not conserved in the bacterial kingdom suggesting that signal transduction and regulation of gene expression might occur by very different mechanisms in stressosomes of different species. We have focused here on a stressosome type from the Gram-negative pathogen Vibrio vulnificus that is quite distinct from the Bacillus ones with respect to (1) the missing conservation of the Rsb operon, (2) the role of RsbT, (3) the activation of a different transcriptional promoter, and (4) the absence of additional RsbR orthologs. Interestingly, there is only one RsbR protein encoded in the genome. This one contains a Haem-group in its N-terminal domain being oxygen sensitive. It is assumed that the Vibrio stressosome perceive only oxidative stress and that regulation occurs via a diguanylate cyclase with a GAF domain that synthesizes the second messenger c-di-GMP from GTP.
We have started a structure determination of the Vibrio vulnificus stressosome by SP cryo-EM to elucidate the differences in the molecular mechanism of stress sensing in divers stressosome types. A 3D map of the oxidized (activated) Vibrio vulnificus stressosome was determined to 7.6 Å resolution revealing an increased flexibility of both the core and the N-terminal sensor domains in comparison to the Bacillus stressosome suggesting that our structure has trapped for the first time an active state of a stressosome complex. A 3D map of the stressosome core to 7 Å resolution allowed fitting of a homology model of the Vibrio stressosome based on the Bacillus stressosome as template. The conformational changes could be attributed to the entire core, which was confirmed by MD simulations.
During my thesis, I worked on two different membrane proteins. One is a bacterial secondary transporter and the second is a human mitochondrial calcium channel.
The first part of my thesis involves the structural and biochemical characterization of an L-carnitine/ γ-butyrobetaine antiporter from bacteria called CaiT. The aim of the project was to understand the Na+ independence of CaiT and to determine the crystal structures of CaiT in different conformations to expand the mechanistic understanding of substrate/ product antiport in CaiT.
The study revealed how a positively charged amino acid side chain (arginine 262) in CaiT could structurally and functionally mimic a sodium ion. Additionally, various crystal structures of CaiT obtained in this study demonstrate that the central substrate-binding site is highly dynamic and can accommodate the substrate in various orientations.
In the second part of my thesis, I was able to optimize the expression and purification conditions for the human mitochondrial calcium uniporter or the MCU. Understanding how this channel functions can help us unravel the mechanism of calcium uptake by mitochondria. Secondary structure prediction analysis in combination with mass spectrometry of degraded MCU products obtained during the purification of the full-length protein led to the identification of a stable MCU construct. This study resulted in the successful purification of milligram quantities of stable MCU protein for the first time. Further optimization may be required to obtain more homogenous protein that is amenable for crystallization.