Andentransekt 2: Die Oberflächenbegehungen des Proyecto Bajo Río Grande, Peru (2008–2011)

Seit 2006 ist die KAAK im südlichen Peru auch am Unterlauf des Río Grande archäologisch tätig. Die Aktivitäten erstrecken sich einerseits auf archäologische Oberfl ächenbegehungen und andererseits seit 2007 auf Sondagen in dem bei den Prospektionen entdeckten Abri von Las Brujas (BRiG 3131). Hinter diesen Un-ternehmungen steht die Absicht, die vormals auf das Río Grande-Becken am Andenfußbegrenzten Forschungen der Kommission bis zur Flussmündung in den Pazifi k auszudehnen und gleichzeitig mit einer Grabung in einem archaisch-formativzeitlichen Kontext eine Ref-erenz insbesondere für küstennahe akeramisch-lithische und frühe keramische Fundplätze zu schaffen. Frühere Feldforscher hatten dieseRegion bisher nur kursorisch besucht

Development of Comorbid Depression after Social Fear Conditioning in Mice and Its Effects on Brain Sphingolipid Metabolism

Currently, there are no animal models for studying both specific social fear and social fear with comorbidities. Here, we investigated whether social fear conditioning (SFC), an animal model with face, predictive and construct validity for social anxiety disorder (SAD), leads to the development of comorbidities at a later stage over the course of the disease and how this affects the brain sphingolipid metabolism. SFC altered both the emotional behavior and the brain sphingolipid metabolism in a time-point-dependent manner. While social fear was not accompanied by changes in non-social anxiety-like and depressive-like behavior for at least two to three weeks, a comorbid depressive-like behavior developed five weeks after SFC. These different pathologies were accompanied by different alterations in the brain sphingolipid metabolism. Specific social fear was accompanied by increased activity of ceramidases in the ventral hippocampus and ventral mesencephalon and by small changes in sphingolipid levels in the dorsal hippocampus. Social fear with comorbid depression, however, altered the activity of sphingomyelinases and ceramidases as well as the sphingolipid levels and sphingolipid ratios in most of the investigated brain regions. This suggests that changes in the brain sphingolipid metabolism might be related to the short- and long-term pathophysiology of SAD

Towards chemical analysis of nanostructures in biofilms I: imaging of biological nanostructures

Due to their direct influence on the stability of bacterial biofilms, a better insight into the nanoscopic spatial arrangement of the different extracellular polymeric substances (EPS), e.g., polysaccharides and proteins, is important for the improvement of biocides and for process optimization in wastewater treatment and biofiltration. Here, the first application of a combination of confocal laser-scanning microscopy (CLSM) and atomic force microscopy (AFM) to the investigation of river-water biofilms and related biopolymers is presented. AFM images collected at selected areas of CLS micrographs dramatically demonstrate the heterogeneity of biofilms at the nanometer scale and the need for a chemical imaging method with nanoscale resolution. The nanostructures (e.g., pili, flagella, hydrocolloids, and EPS) found in the extracellular matrix are classified according to shape and size, which is typically 50-150nm in width and 1-10nm in thickness, and sets the demands regarding spatial resolution of a potential chemical imaging method. Additionally, thin layers of the polysaccharide alginate were investigated. We demonstrate that calcium alginate is a good model for the EPS architecture at the nanometer scale, because of its similar network-like structure. Figure CLSM-AFM allows imaging of nanometer-sized extracellular structure

Neue Wege zur Schaffung struktur- und artenreicher Waldränder im Kreis Höxter

Die Bundesrepublik hat sich 1992 wie viele andere Staaten zum Erhalt der biologischen Vielfalt verpflichtet (Biodiversitätskonvention). Zur Erreichung dieses Zieles fördert das Bundesministerium für Ernährung, Landwirtschaft und Verbraucherschutz (BMELV) u. a. Vorhaben zur Erhaltung und innovativen nachhaltigen Nutzung der biologischen Vielfalt. Grundlage der Förderung ist eine Richtlinie von 2005. Träger entsprechender Projekte ist die Bundesanstalt für Landwirtschaft und Ernährung (BLE). Bereits 2006 hatte die Landschaftsstation zusammen mit dem damaligen Forstamt Bad Driburg einen Projektantrag eingereicht, bei dem es um die Wiederbelebung der Nieder- und Mittelwaldnutzung im Bereich der im Kreis Höxter ehemals zahlreichen Nieder- und Mittelwälder ging (vgl. GRAWE & BÖLKE 2005). Da zunächst nur recht kleine Waldareale in das Vorhaben einbezogen werden sollten, wurde der Antrag abgelehnt. Anfang 2007 fragte die BLE bei der Landschaftsstation an, ob es nicht möglich sei, die Gebietskulisse zu erweitern, da der Projektantrag grundsätzlich als förderfähig angesehen werde. Aufgrund dieser Anfrage erarbeiteten das heutige Regionalforstamt Hochstift und die Landschaftsstation einen neuen Projektantrag mit dem Titel "Mittelwaldähnliche Waldrandgestaltung und -nutzung zur Förderung der Nutzholzarten Stiel-Eiche, Trauben-Eiche und Hainbuche sowie seltener Edellaub- und Nadelgehölze wie Elsbeere, Wacholder oder Eibe", der dann im Herbst des gleichen Jahres durch die BLE bewilligt wurde, so dass bereits im Oktober 2007 mit der Umsetzung des Vorhabens begonnen werden konnte. Vorrangiges naturschutzfachliches Ziel des Vorhabens ist die Förderung der in ihren Beständen im Rückgang befindlichen lichtliebenden Nutzholzarten Trauben-Eiche (Quercus petraea), Stiel-Eiche (Quercus robur), Hainbuche (Carpinus betulus), Feld-Ahorn (Acer campestre), Winter-Linde (Tilia cordata), Elsbeere (Sorbus torminalis), Wacholder (Juniperus communis) und Eibe (Taxus baccata). Die Förderung dieser Baumarten soll im Rahmen einer mittelwaldähnlichen Nutzung von Waldrändern geschehen. Eine ökonomische Inwertsetzung erfolgt im Rahmen einer einmaligen Erstinstandsetzung sowie des nachfolgenden regelmäßigen Einschlages des nachwachsenden Holzes (alle 15-30 Jahre). Das dann eingeschlagene Holz wird zur Energiegewinnung (Hackschnitzel) genutzt

Elektrogesponnene Polymerfasern als neuartiges Material für die Bioelektrokatalyse des Enzyms Pyrrolochinolinchinon-abhängige Glucosedehydrogenase

Es wurde ein dreidimensionales Polymerfasernetzwerk aufgebaut, charakterisiert und anschließend daran das Enzym Pyrrolochinolinchinon-abhängige Glukosedehydrogenase (PQQ)GDH gebunden. Das Polymerfasernetzwerk wurde durch Elektrospinnen einer Mischung des Polymers Polyacrylnitril und verschiedener leitfähiger Polymere der Polyanilin-Familie auf Indium-Zinn-Oxid-Elektroden aufgebracht. Die so hergestellten Fasermatten erwiesen sich bei mikroskopischen Untersuchungen gleichförmig präpariert und die Faserdurchmesser bewegten sich im Bereich weniger hundert Nanometer. Das Redoxpaar Kaliumhexacyanoferrat (II/III) zeigte an diesen Polymer-Elektrodenstrukturen eine quasi-reversible Elektrochemie. Bei weitergehenden Untersuchungen an den enzymmodifizierten Fasern ((PQQ)GDH) konnten unter Substratzugabe (Glukose) bioelektrokatalytische Ströme nachgewiesen werden. Das Fasernetzwerk fungiert hier nicht nur als Immobilisierungsmatrix, sondern als auch als Teil des Signalwandlers.A three-dimensional polymeric electrode structure was developed, characterized and subsequently coupled with the enzyme pyrroloquinoline quinone-dependent Glucosedehydrogenase (PQQ)GDH. The polymeric fiber network is produced by means of electrospinning from mixtures of polyacrylonitrile (PAN) and three different sulfonated poylanilines on top of ITO electrodes. The mats are uniform in their overall appearance; average diameters of the fibers produced are in the range of a few hundred nanometers. These polymeric structures can be shown to allow electrochemical conversions as verified with the ferri-/ferrocyanide redox couple. In addition, application in bioelectrocatalysis can be demonstrated. For two of three selected blends of PAN with sulfonated polyanillines, a well-defined bioelectrochemical response is obtained upon covalent fixation of PQQ-GDH to the fiber network and subsequent addition of substrate glucose. The electrospun matrix does not only act here as an immobilization support, but at the same time as a transducing element

Towards a novel bioelectrocatalytic platform based on "wiring" of pyrroloquinoline quinone-dependent glucose dehydrogenase with an electrospun conductive polymeric fiber architecture

Electrospinning is known as a fabrication technique for electrode architectures that serve as immobilization matrices for biomolecules. The current work demonstrates a novel approach to construct a conductive polymeric platform, capable not only of immobilization, but also of electrical connection of the biomolecule with the electrode. It is produced upon electrospinning from mixtures of three different highly conductive sulfonated polyanilines and polyacrylonitrile on ITO electrodes. The resulting fiber mats are with a well-retained conductivity. After coupling the enzyme pyrroloquinoline quinone-dependent glucose dehydrogenase (PQQ-GDH) to polymeric structures and addition of the substrate glucose an efficient bioelectrocatalysis is demonstrated. Depending on the choice of the sulfonated polyanilline mediatorless bioelectrocatalysis starts at low potentials;no large overpotential is needed to drive the reaction. Thus, the electrospun conductive immobilization matrix acts here as a transducing element, representing a promising strategy to use 3D polymeric scaffolds as wiring agents for active enzymes. In addition, the mild and well reproducible fabrication process and the active role of the polymer film in withdrawing electrons from the reduced PQQ-GDH lead to a system with high stability. This could provide access to a larger group of enzymes for bioelectrochemical applications including biosensors and biofuel cells

Anomaly Detections for Manufacturing Systems Based on Sensor Data—Insights into Two Challenging Real-World Production Settings

To build, run, and maintain reliable manufacturing machines, the condition of their components has to be continuously monitored. When following a fine-grained monitoring of these machines, challenges emerge pertaining to the (1) feeding procedure of large amounts of sensor data to downstream processing components and the (2) meaningful analysis of the produced data. Regarding the latter aspect, manifold purposes are addressed by practitioners and researchers. Two analyses of real-world datasets that were generated in production settings are discussed in this paper. More specifically, the analyses had the goals (1) to detect sensor data anomalies for further analyses of a pharma packaging scenario and (2) to predict unfavorable temperature values of a 3D printing machine environment. Based on the results of the analyses, it will be shown that a proper management of machines and their components in industrial manufacturing environments can be efficiently supported by the detection of anomalies. The latter shall help to support the technical evangelists of the production companies more properly

IRGM variants and susceptibility to inflammatory bowel disease in the German population.

Genome-wide association studies identified the autophagy gene IRGM to be strongly associated with Crohn's disease (CD) but its impact in ulcerative colitis (UC), its phenotypic effects and potential epistatic interactions with other IBD susceptibility genes are less clear which we therefore analyzed in this study. Genomic DNA from 2060 individuals including 817 CD patients, 283 UC patients, and 961 healthy, unrelated controls (all of Caucasian origin) was analyzed for six IRGM single nucleotide polymorphisms (SNPs) (rs13371189, rs10065172 = p.Leu105Leu, rs4958847, rs1000113, rs11747270, rs931058). In all patients, a detailed genotype-phenotype analysis and testing for epistasis with the three major CD susceptibility genes NOD2, IL23R and ATG16L1 were performed. Our analysis revealed an association of the IRGM SNPs rs13371189 (p = 0.02, OR 1.31 [95% CI 1.05-1.65]), rs10065172 = p.Leu105Leu (p = 0.016, OR 1.33 [95% CI 1.06-1.66]) and rs1000113 (p = 0.047, OR 1.27 [95% CI 1.01-1.61]) with CD susceptibility. There was linkage disequilibrium between these three IRGM SNPs. In UC, several IRGM haplotypes were weakly associated with UC susceptibility (p<0.05). Genotype-phenotype analysis revealed no significant associations with a specific IBD phenotype or ileal CD involvement. There was evidence for weak gene-gene-interaction between several SNPs of the autophagy genes IRGM and ATG16L1 (p<0.05), which, however, did not remain significant after Bonferroni correction. Our results confirm IRGM as susceptibility gene for CD in the German population, supporting a role for the autophagy genes IRGM and ATG16L1 in the pathogenesis of CD