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development of next-generation silicon-based solar cells demonstrating high-efficiency, low carbon footprint and high potential for scalability to industrial manufacturing. More specifically, in the frame of a
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fascinated by the intricate mechanisms governing cell fate transitions within the nucleus. Our mission is to decode how epigenetic regulation crafts neural development, leveraging brain organoids as our
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Generation of genetically modified animals (transgenesis, gene knock in-knock out); o Embryology procedures such as in situ hybridization, immunohistochemistry, micro-injection and micro-manipulation (cell
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characterization methods, particularly TEM and cryoEM. - RNA Techniques: Experience with RNA handling, including qPCR and dPCR, for assessing RNA loading and integrity. - Cell Culture and Assays: Proficiency in
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, minimum 2 years, in molecular biology, cell biology, physiology and pharmacology. Comfortable with programming concepts used in Data Science (R/Python) Good knowledge of common computer software (MS
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) Experience in molecular biology, cell biology, animal physiology would be a plus We offer : Excellent working conditions in a multidisciplinary team at the cutting edge of technology Continuing
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on anaerobic microbial arsenic methylation use microfluidic devices and batch experiments use biosensors to quantify the response of E. coli cells to active arsenic methylation participate in general laboratory
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across (bio)membranes, (iv) hybrid living/inorganic microsystems, (v) growth and manipulation of cells on chip, (vi) organoids and organs on chip, (vii) microfluidic wearable and implanted systems, (viii