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iPSC technology, advanced cellular imaging techniques is a plus; Affinity for biochemistry, physiology and (for one of the positions) computational biology; A flexible and pro-active attitude with team
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biochemistry, in vitro models using iPSC technology, advanced cellular imaging techniques is a plus; Affinity for biochemistry, physiology and (for one of the positions) computational biology; A flexible and pro
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treatment technology for applying and monitoring effective novel personalized breast cancer treatments combining MR-guided local thermotherapy with ‘smart’ nano-chemotherapy. This project is supported by a
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of Twente and Wageningen, to detect RNA biomarkers with CRISPR-Cas13. This technology is ultra-sensative and may revolutionize ‘point of care ‘cancer diagnostics. You will work with state-of-the-art
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, in parallel, explore CRISPR and AAV technologies to develop new ocular gene therapy. We have all multidisciplinary facilities, technology and expertise needed directly at our disposal. The candidate
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students at CvO University can enrol in the Graduate School of Science, Medicine, and Technology (OLTECH) in the structured PhD programme Neurosensory Science and Systems (Curriculum: https://uol.de
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engineering, applied mathematics, computational physics, or related fields. Experience in medical- or spatial molecular image analysis is preferred. Specifically, we are looking for someone with: Affinity
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for classification has limitations that can be overcome with fast Nanopore-sequence technology and deep-learned neural-network driven classification called "Sturgeon”. In a proof-of-concept study we have shown
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: Finished PhD in a field related to neuroscience, immunology, tissue engineering and/or iPSC organoid culture; Experience with in vitro models using iPSC technology and gene editing (i.e. Crispr/Cas) is a
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treatment technology for applying and monitoring effective novel personalized breast cancer treatments combining MR-guided local thermotherapy with ‘smart’ nano-chemotherapy. This project is supported by a