Volume 2 – Conference

We are pleased to present the conference proceedings for the 12th edition of the International Fluid Power Conference (IFK). The IFK is one of the world’s most significant scientific conferences on fluid power control technology and systems. It offers a common platform for the presentation and discussion of trends and innovations to manufacturers, users and scientists. The Chair of Fluid-Mechatronic Systems at the TU Dresden is organizing and hosting the IFK for the sixth time. Supporting hosts are the Fluid Power Association of the German Engineering Federation (VDMA), Dresdner Verein zur Förderung der Fluidtechnik e. V. (DVF) and GWT-TUD GmbH. The organization and the conference location alternates every two years between the Chair of Fluid-Mechatronic Systems in Dresden and the Institute for Fluid Power Drives and Systems in Aachen. The symposium on the first day is dedicated to presentations focused on methodology and fundamental research. The two following conference days offer a wide variety of application and technology orientated papers about the latest state of the art in fluid power. It is this combination that makes the IFK a unique and excellent forum for the exchange of academic research and industrial application experience. A simultaneously ongoing exhibition offers the possibility to get product information and to have individual talks with manufacturers. The theme of the 12th IFK is “Fluid Power – Future Technology”, covering topics that enable the development of 5G-ready, cost-efficient and demand-driven structures, as well as individual decentralized drives. Another topic is the real-time data exchange that allows the application of numerous predictive maintenance strategies, which will significantly increase the availability of fluid power systems and their elements and ensure their improved lifetime performance. We create an atmosphere for casual exchange by offering a vast frame and cultural program. This includes a get-together, a conference banquet, laboratory festivities and some physical activities such as jogging in Dresden’s old town.:Group 1 | 2: Digital systems Group 3: Novel displacement machines Group 4: Industrial applications Group 5: Components Group 6: Predictive maintenance Group 7: Electro-hydraulic actuatorsDer Download des Gesamtbandes wird erst nach der Konferenz ab 15. Oktober 2020 möglich sein.:Group 1 | 2: Digital systems Group 3: Novel displacement machines Group 4: Industrial applications Group 5: Components Group 6: Predictive maintenance Group 7: Electro-hydraulic actuator

Complementary Mass Spectrometry Methods for Characterizing Protein Folding, Structure, and Dynamics

Proteins are involved in virtually every biochemical process. A comprehensive characterization of factors that govern protein function is essential for understanding the biomedical aspects of human health. This dissertation aims to develop complementary mass spectrometry-based methods and apply them to solve problems pertaining to the area of protein structure, folding and dynamics. ‎Chapter 1 uses fast photochemical oxidation of proteins (FPOP) to characterize partially disordered conformers populated under semi-denaturing conditions. In FPOP, ·OH generated by laser photolysis of H2O2 introduces oxidative modifications at solvent accessible side chains. By contrast, buried sites are protected from radical attack. Using apomyoglobin (aMb), it was demonstrated that under optimized conditions undesired can be almost completely eliminated and detailed structural information can be obtained. ‎Chapter 3 combines FPOP with submillisecond mixing to enable studying early events in protein folding. aMb served as a model system for these measurements. Spatially-resolved changes in solvent accessibility follow the folding process. Data revealed that early aMb folding events are driven by both local and sequence-remote docking of hydrophobic side chains. Assembly of a partially formed scaffold after 0.2 ms is followed by stepwise consolidation that ultimately yields the native state. The submillisecond mixer used improved the time resolution by a factor of 50 compared to earlier FPOP experiments. Submillisecond mixing in conjunction with slower mixing techniques help monitor completes folding pathways, from fractions of a millisecond all the way to minutes. ‎Chapter 4 uses ion mobility mass spectrometry (IM-MS) to explore the structural relationship between semi folded solution and gas phase protein conformers. Collision cross sections (CCSs) provide a measure of analyte size. Mb was used as model system because it follows a sequential unfolding pathway that comprises two partially disordered states. IM-MS data showed that the degree of gas phase unfolding is not strongly correlated with the corresponding solution. Gas phase unfolding as well as collapse events can lead to disparities between gaseous and solution structures for partially unfolded proteins. IM-MS data on non-native conformers should therefore be interpreted with caution. ‎Chapter 5 uses HDX-MS to examine the role of conformational dynamics for the function of multi-protein molecular machines such as FoF1 ATP synthase. HDX-MS monitors backbone deuteration kinetics in the presence of D2O. Disordered segments exchange more rapidly than those in tightly folded regions. Measurements of spatially-resolved deuterium are performed using LC-MS. It was found that the H-bonding network of key power transmission elements is insensitive to PMF-induced mechanical stress. Unexpectedly, HDX-MS reveals a pronounced destabilization of the g C-terminus during rotational catalysis under PMF. The behavior of g is attributed to kinetic friction within the apical rotor bearing

Space transfer concepts and analyses for exploration missions: Technical directive 10

The current technical effort is part of the third phase of a broad-scoped and systematic study of space transfer concepts for human lunar and Mars missions. The study addressed issues that were raised during the previous phases but specifically on launch vehicle size trades and MEV options

Soil functional indicators in a mountain forest-rangeland mosaic of northern Iran

Abstract Soil plays an essential role in providing ecosystem services, especially in mountain ecosystems which are often considered as fragile and sensitive systems and commonly consist of a mosaic of forest and rangeland plant communities. The relationship between above-ground plant cover and the properties of soil organic and mineral layers in mountain areas are rarely studied. This research aimed to assess the effect of different land covers (i.e. forest, forest-rangeland ecotone, and rangeland) on soil functional indicators, i.e. fertility and biological activities, in the Hyrcanian region of northern Iran. We hypothesized that (i) the presence of tree cover enhances soil fertility and biological activities and creates hot spots (islands) of soil functional indicators especially in the topsoil, (ii) litter quality and organic matter fractions are the drivers for activities of soil organisms, nutrient cycles and transformation processes in mountain ecosystems. Litter (O-horizon including L, F and H layers) and mineral soil samples (in two separate depths of 0–10 cm and 10–20 cm) were taken using iron frames (30 × 30 cm). In total, 45 litter and 90 soil samples were transferred to the laboratory. Soil characteristic especially in the 0–10 cm depth, litter carbon (C), nitrogen (N) and C/N ratio were significantly affected by different land covers showing the maximum of soil organic C and microbial activity under forest. Our findings showed that the studied land covers, as well as litter and soil properties can be separated by PCA output. The first and second axes, accounted more than 50% of the explained variance in each of the studied soil depths. Soils with a better quality of litter (i.e. lower C/N ratio), higher values for organic matter fractions, soil fertility indicators and soil biological activities can be attributed to the forest. In contrast, positions of low soil fertility indicator values and biota abundance were imposed by forest-rangeland ecotone and rangeland. Although each land cover plays a prominent ecological role and takes its place in the evolutionary process, forests are essential because of their capacity to store and transform carbon and nutrients and to create hotspots identified by functional soil indicators. Based on our findings, soil functions decreased ranked in the order forest > forest-rangeland ecotone > rangeland, which can be assigned to the lower density of trees, and the amount of litter mass and litter quality. It can be concluded that tree covers have a prominent role in increasing soil functions, which should be given special consideration in the restoration of degraded mountain ecosystems

Development of PCI Embedded Card Useful for Microcontroller Trainer

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Factor dependent archaeal transcription termination

2017 Fall.Includes bibliographical references.RNA polymerase activity is regulated by nascent RNA sequences, DNA template sequences and conserved transcription factors. Transcription factors regulate the activities of RNA polymerase (RNAP) at each stage of the transcription cycle: initiation, elongation, and termination. Many basal transcription factors with common ancestry are employed in eukaryotic and archaeal systems that directly bind to RNAP and influence intramolecular movements of RNAP and modulate DNA or RNA interactions. We describe and employ a flexible methodology to directly probe and quantify the binding of transcription factors to the archaeal RNAP in vivo. We demonstrate that binding of the conserved and essential archaeal transcription factor TFE to the archaeal RNAP is directed, in part, by interactions with the RpoE subunit of RNAP. As the surfaces involved are conserved in many eukaryotic and archaeal systems, the identified TFE-RNAP interactions are likely conserved in archaeal-eukaryal systems and represent an important point of contact that can influence the efficiency of transcription initiation. While many studies in archaea have focused on elucidating the mechanism of transcription initiation and elongation, studies on termination were slower to emerge. Transcription factors promoting initiation and elongation have been characterized in each Domain but transcription termination factors have only been identified in bacteria and eukarya. Here we characterize the first archaeal termination factor (termed Eta) capable of disrupting the transcription elongation complex, detail the rate of and requirements for Eta-mediated transcription termination and describe a role for Eta in transcription termination in vivo. Eta-mediated transcription termination is energy-dependent, requires upstream DNA sequences and disrupts transcription elongation complexes to release the nascent RNA to solution. Deletion of TK0566 (encoding Eta) is possible, but results in slow growth and renders cells sensitive to DNA damaging agents. Structure-function studies reveal that the N-terminal domain of Eta is not necessary for Eta-mediated termination in vitro, but Thermococcus kodakarensis cells lacking the N-terminal domain exhibit slow growth compared to parental strains. We report the first crystal structure of Eta that will undoubtedly lead to further structure-function analyses. The results obtained argue that the mechanisms employed by termination factors in archaea, eukarya, and bacteria to disrupt the transcription elongation complex may be conserved and that Eta stimulates release of stalled or arrested transcription elongation complexes

Parameter estimate of signal transduction pathways

BACKGROUND: The "inverse" problem is related to the determination of unknown causes on the bases of the observation of their effects. This is the opposite of the corresponding "direct" problem, which relates to the prediction of the effects generated by a complete description of some agencies. The solution of an inverse problem entails the construction of a mathematical model and takes the moves from a number of experimental data. In this respect, inverse problems are often ill-conditioned as the amount of experimental conditions available are often insufficient to unambiguously solve the mathematical model. Several approaches to solving inverse problems are possible, both computational and experimental, some of which are mentioned in this article. In this work, we will describe in details the attempt to solve an inverse problem which arose in the study of an intracellular signaling pathway. RESULTS: Using the Genetic Algorithm to find the sub-optimal solution to the optimization problem, we have estimated a set of unknown parameters describing a kinetic model of a signaling pathway in the neuronal cell. The model is composed of mass action ordinary differential equations, where the kinetic parameters describe protein-protein interactions, protein synthesis and degradation. The algorithm has been implemented on a parallel platform. Several potential solutions of the problem have been computed, each solution being a set of model parameters. A sub-set of parameters has been selected on the basis on their small coefficient of variation across the ensemble of solutions. CONCLUSION: Despite the lack of sufficiently reliable and homogeneous experimental data, the genetic algorithm approach has allowed to estimate the approximate value of a number of model parameters in a kinetic model of a signaling pathway: these parameters have been assessed to be relevant for the reproduction of the available experimental data

Space Transfer Concepts and Analyses for Exploration Missions

This report covers the third phase of a broad-scoped and systematic study of space transfer concepts for human lunar and Mars missions. The study addressed issues that were raised during Phase 2, developed generic Mars missions profile analysis data, and conducted preliminary analysis of the Mars in-space transportation requirements and implementation from Stafford Committee Synthesis Report. The major effort of the study was the development of the first Lunar Outpost (FLO) baseline which evolved from the Space Station Freedom Hab Module. Modifications for the First Lunar Outpost were made to meet mission requirements and technology advancements

Metallic or Metallic Oxide (Photo)catalysts for Environmental Applications

This reprint is the compilation of the articles submitted in the Special Issue entitled “Metallic or Metallic Oxide (Photo)catalysts for Environmental Applications” from the journal Catalysts, which gives an overview of the latest advances in the development of metallic or metallic oxide (photo)catalytic materials, with environmental applications for the elimination of organic pollutants or the valorization of biomass