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-driven simulation with physics-inspired data and image analysis, often in close collaboration with experimental partners, to identify physical principles behind biological dynamics and self-organization
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principles of embryonic development. Our team employs various vertebrate models, from sharks to mice, and modern approaches (single-cell omics, multiplexed HCR, 3D and high-resolution imaging, micro-computed
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facilities (on-site) in genomics, proteomics, imaging, and computational biology. Close supervision and mentorship to support scientific and career development. Financial support for conference participation
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) theoretical and practical experience in peptide chemistry, nucleic acid chemistry as well as knowledge of bioassays are beneficial Experience and knowledge in fluorescence spectroscopy/imaging is desired
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| Methods Workshops | Transferable Skills Topics addressed in the program’s structured curriculum range from molecular and cellular neuroscience, behavioral assessments, electrophysiology, brain imaging
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inviting applications for a PhD Student (f/m/x) for the project Theory and Algorithms for Structure Determination from Single Molecule X-Ray Scattering Images Project description Single molecule X-ray
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. In addition, state-of-the-art photonic technologies developed at DESY play a key role in numerous transfer activities carried out in collaboration with industry. Building up on an ongoing paradigm
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Anemometry (LDA), and Particle Image Velocimetry (PIV). Extend existing in-house wind field models (based on stochastic differential equations such as Langevin or Fokker-Planck types). Integrate novel