66 research outputs found

    Ultra-slow Fatigue Crack Propagation in Metallic Alloys

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    AbstractThe influence of frequency (20kHz ultrasonic tests and conventional 20 to 35Hz tests) and environment (air and vacuum) on near-threshold fatigue crack propagation of three metallic alloys, Ti-6Al-4V, 2024-T351 and 12% Cr stainless steel is compared experimentally. The effective stress-intensity factor which is considered as the propagation driving force is determined from closure measurements or tests run at high R-ratio. Based on microfractographic observations, the results are discussed in terms of a preexisting model for intrinsic and environmentally assisted fatigue crack propagation

    Ret rescues mitochondrial morphology and muscle degeneration of Drosophila Pink1 mutants

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    Synopsis image Glial cell line derived neurotrophic factor (GDNF) improves survival in toxin-models of Parkinson's disease and is currently undergoing clinical development, however the protective mechanism is elusive. This study provides evidence that the GDNF receptor Ret rescues defects of a genetic Parkinson model and proposes a new mechanism-of-action. Active Ret overexpression rescues muscle degeneration and mitochondrial morphology in muscles and dopamine neurons in Pink1 mutant Drosophila. In human neuroblastoma cells, GDNF treatment rescues mitochondrial fragmentation caused by Pink1 knockdown. Ret signaling improves mitochondrial respiration and activity of complex I, providing a potential novel mechanism for the protective effect of GDNF/Ret. Abstract Parkinson's disease (PD)-associated Pink1 and Parkin proteins are believed to function in a common pathway controlling mitochondrial clearance and trafficking. Glial cell line-derived neurotrophic factor (GDNF) and its signaling receptor Ret are neuroprotective in toxin-based animal models of PD. However, the mechanism by which GDNF/Ret protects cells from degenerating remains unclear. We investigated whether the Drosophila homolog of Ret can rescue Pink1 and park mutant phenotypes. We report that a signaling active version of Ret (Ret(MEN)(2B)) rescues muscle degeneration, disintegration of mitochondria and ATP content of Pink1 mutants. Interestingly, corresponding phenotypes of park mutants were not rescued, suggesting that the phenotypes of Pink1 and park mutants have partially different origins. In human neuroblastoma cells, GDNF treatment rescues morphological defects of PINK1 knockdown, without inducing mitophagy or Parkin recruitment. GDNF also rescues bioenergetic deficits of PINK knockdown cells. Furthermore, overexpression of Ret(MEN)(2B) significantly improves electron transport chain complex I function in Pink1 mutant Drosophila. These results provide a novel mechanism underlying Ret-mediated cell protection in a situation relevant for human PD

    The RNA-binding protein Arrest (Bruno) regulates alternative splicing to enable myofibril maturation in Drosophila flight muscle.

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    In Drosophila, fibrillar flight muscles (IFMs) enable flight, while tubular muscles mediate other body movements. Here, we use RNA-sequencing and isoform-specific reporters to show that spalt major (salm) determines fibrillar muscle physiology by regulating transcription and alternative splicing of a large set of sarcomeric proteins. We identify the RNA-binding protein Arrest (Aret, Bruno) as downstream of salm. Aret shuttles between the cytoplasm and nuclei and is essential for myofibril maturation and sarcomere growth of IFMs. Molecularly, Aret regulates IFM-specific splicing of various salm-dependent sarcomeric targets, including Stretchin and wupA (TnI), and thus maintains muscle fiber integrity. As Aret and its sarcomeric targets are evolutionarily conserved, similar principles may regulate mammalian muscle morphogenesis

    Systematic analysis of adult muscle formation and function in Drosophila

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    Genetic analysis of Drosophila adult muscle type specification

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    Interprofessionelle Anamnese und Zielfindung mit Simulationspatienten (SP)

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    In Vivo RNAi Rescue in Drosophila melanogaster with Genomic Transgenes from Drosophila pseudoobscura

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    Background: Systematic, large-scale RNA interference (RNAi) approaches are very valuable to systematically investigate biological processes in cell culture or in tissues of organisms such as Drosophila. A notorious pitfall of all RNAi technologies are potential false positives caused by unspecific knock-down of genes othe

    Mech. Dev.

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    Weiterentwicklung des Marburger Curriculum Medizin - Zwischenbericht

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