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on the development, optimization, and clinical evaluation of new x-ray-based imaging methods. The lab focuses on the use of medical physics approaches to improve image acquisition methods and processing algorithms
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information about this vacancy or the selection procedure, please contact Professor Cees Dekker, via C.Dekker@tudelft.nl . Application procedure Are you interested in this vacancy? Please apply no later than 5
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in how DNA damage affects Pol II and interferes with the transcription process, thereby improving our understanding of the cellular mechanisms that protect transcriptional integrity, which is essential
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lengthy processing times associated with sequencing. This PhD project aims to develop innovative artificial intelligence (AI) methodologies by integrating histopathology images and RNA sequencing data
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process shortly. If a suitable candidate is found before the closing date, the vacancy will be closed, and further applications will no longer be possible. You will preferably start your employment as soon
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biological techniques to elucidate how specific metabolites modulate immune function and to develop synthetic small molecules that can mimic these processes. The candidate will be trained in a variety of
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synthetic chemistry, proteomics, and biological techniques to elucidate how specific metabolites modulate immune function and to develop synthetic small molecules that can mimic these processes. The candidate
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biological techniques to elucidate how specific metabolites modulate immune function and to develop synthetic small molecules that can mimic these processes. The candidate will be trained in a variety of
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the understanding of the transition processes in practice and develop ways to better govern the collection of transitions. This research setting builds on knowledge and theories at the intersection of innovation
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of DNA damage on RNA polymerases in living cells. This project will provide important molecular insights in how DNA damage affects Pol II and interferes with the transcription process, thereby improving