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for a highly motivated and enthusiastic PhD student with: An completed MSc in a relevant field; Preferably a background in stem cell biology and molecular biology. Experience with retinal or relevant
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We are looking for a highly motivated candidate for a PhD project that focusses on the development of novel computational methods for the stratification of patients with inflammatory rheumatic
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an attractive source of effector cells for cancer immunotherapy. We have developed an unique GMP-compliant culture system for the off-the-shelf NK cell production from umbilical cord blood-derived CD34+ stem and
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organoid systems, such as kidney and intestinal organoids as well as stem cell-derived embryo models. Stem cells, including induced pluripotent stem cells, demonstrate an impressive self-organizing capacity
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assess this both in human cancer cell lines and mouse developmental models (mouse embryonic stem cells and gastruloids). The project, led by Dr. Rutger Gjaltema, is embedded in the Molecular & Cellular
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of your PhD, you write a PhD thesis, which you will defend in an oral exam/celebration. You will likely encounter the following techniques during your PhD: Culturing blood cells and induced pluripotent stem
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. The overarching aim of RIMLS-Science is to decipher molecular mechanisms of disease. Research areas of RIMLS-Science include epigenetics, stem-cell and developmental biology, and computational biology. The central
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human induced pluripotent stem cells (hiPSCs) and cultured under dynamic flow in vascularized microfluidics bioreactors. Using this multi-organ-on-chip platform (Body Barriers), cultured in a single
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)polybenzimidazoles will be studied in order to tune the properties of the polymers towards the final application, namely anion exchange membranes for electrolyzers/fuel cells. The PhD student will work closely
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)polybenzimidazoles will be studied in order to tune the properties of the polymers towards the final application, namely anion exchange membranes for electrolyzers/fuel cells. The PhD student will work closely