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departmental strengths, we are particularly interested in candidates who explore basic cell metabolism in healthy and diseased states, or metabolites as signaling molecules. The successful candidate will also
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the connections between microtubule motors and their cargos. The scope of the project can involve in vitro reconstitutions, single-molecule assays, cryo-electron microscopy and cell biology approaches using induced
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I position is available in the RSP Lab led by Dr. Sklavenitis Pistofidis. The RSP Lab (https://rsplab.org ) leverages advanced multi-omic technologies, coupled with experimental perturbations and
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) microscopy, multiphoton microscopy, intravital microscopy, cleared tissue light sheet microscopy, single molecule localization microscopy, stimulated emissions depletion (STED) microscopy. Application
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Photochemistry in Organic Aerosols (PHAERO). This project is led by Prof Andrew Orr-Ewing (University of Bristol, UK). The research will investigate how photochemical reactions of organic molecules are affected by
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eggs as a model to study mechanisms of DNA replication and DNA repair. We use molecular biology, biochemistry, cell biology, and single-molecule imaging approaches. The Walter lab is a welcoming
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over 500 employees, we are a lively and dynamic international community of researchers who investigate with curiosity biological phenomena ranging from interactions of molecules to growth, development
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, the project encompasses fundamental studies using HHG-driven XUV light for time-resolved molecular spectroscopy, targeting electronic structure and ultrafast dynamics in atoms and molecules, as
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matrices to better control their confinement at single molecule level. Ultimately, this strategy leads to the specific capture of biomarkers (microRNAs, peptides) and developing early cancer diagnostics
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(TIRF) microscopy, multiphoton microscopy, intravital microscopy, cleared tissue light sheet microscopy, single molecule localization microscopy, stimulated emissions depletion (STED) microscopy