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between synthetic cells. With a lot of room for scientific creativity and collaborations, you will also further extend the capabilities of bottom-up synthetic biology by improving our methods to generate
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You will use advanced AI-driven cell tracking methods to elucidate the remarkable self-organization of cells in mammary gland organoids. The mammary gland is one of the most dynamic tissues in
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In this project you will develop next-generation cell tracking methods for organoids based on advanced AI approaches and novel biophysics concepts, in order to elucidate the remarkable self-renewal
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Developmental Biology’ research groups. The ‘Physics of Cellular Interactions’ group studies immune cell signaling by live-cell imaging and reconstituting signaling processes in model-membrane systems
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genome-wide patterns to molecular mechanisms, and from bacteria to human cells. This initiative is motivated by our recent discovery that multiple ribosomes cooperate to actively drive protein-complex
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to in vitro, from genome-wide patterns to molecular mechanisms, and from bacteria to human cells. Prof. dr. ir. Sander Tans [email protected] https://www.sandertanslab.nl Phone: +31-(0)20-754 7100 You can
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to in vitro, from genome-wide patterns to molecular mechanisms, and from bacteria to human cells. Prof. dr. ir. Sander Tans [email protected] https://www.sandertanslab.nl Phone: +31-(0)20-754 7100 You can
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The AMOLF NanoLab Amsterdamis a research facility for the fabrication and characterization of devices and materials on the micro- and nanometer scale. The NanoLab includes a cleanroom with many high-quality equipment for nanolithography and material deposition and structuring, as well as a wide...
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Python. Formal requirements: You have a Bachelors degree in physics, mathematics, computer science, or quantitative biology, and are enrolled in a Masters program in one of these areas. The internship must
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The Hybrid Nanosystems group at NWO-Institute AMOLF is looking for a postdoc for investigating light-induced processes in situ inside the transmission electron microscope (TEM). Modern TEMs now can routinely visualize materials all the way down to the atomic level, revealing unexpected insights...