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in glia-neuron metabolic interactions, and the underlying regulatory mechanisms are studied. A greater understanding of the metabolic plasticity of the nervous system will lay the basis for better
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resonance energy transfer, siRNA mediated gene knock out, cellular imaging, qPCR, etc.) to elucidate unknown interactions between GPCRs and receptor tyrosine kinases at the cellular level. Analyses will focus
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highly motivated PhD student to join a DFG-funded international project that investigates plant - microbiome interactions through large-scale metabolomics and other - omics platforms. Your tasks: Process
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in gonadal tissues. You will study its role in autophagy regulation, innate immune responses, telomere maintenance, and its interaction with AR signaling in the context of reproductive health. We
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and Their Human Host: Networks of Interaction” (www.funginet.de ) funded by the Deutsche Forschungsgemeinschaft and the consortium SynThera funded by the Carl Zeiss Foundation (www.synthera.eu/ ). We
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PhD Position - Organic Electrosynthesis: monitoring of reaction transients with real-time techniques
international conferences to present the results and to develop further competences Interaction and cooperation with world-leading industrial partners and strong support and mentoring for setting up a future
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cells. Your tasks Cultivation of mammalian cells Biochemical as well as cell and molecular biological methods to study the interactions of alpha emitters with mammalian cells Characterization
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interactions, such as the demand for agricultural products from regions like the EU. This research will inform the design of effective and equitable environmental policies. Key responsibilities: development
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Collaborative Doctoral Project (PhD Position) - AI-guided design of scaffold-free DNA nanostructures
self-assemble from a number of interacting single-stranded DNA molecules. An accurate prediction of DNA structures still remains difficult, which significantly slows down the development of new desirable
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., Motta, M., Johnson, C., Saki, A. A., Das, S., Sitdikov, I., Mezzacapo, A., & Merz, K. M. (2024). Accurate quantum-centric simulations of supramolecular interactions. http://arxiv.org/abs/2410.09209 [2