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tissue culture. Execute in vitro therapeutic studies, including proliferation and metabolic luminescence assays. Perform fluorescence- and magnetic-activated cell sorting (FACS and MACS). Generate high
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design, consulting with other researchers, analysing data, and presenting and reporting results. You will primarily conduct in vitro experiments using molecular biology and gene-editing techniques, as
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the Neuroscience Center in the University of Helsinki (see: https://www2.helsinki.fi/en/researchgroups/synaptic-plasticity-and-development ).The research interests are focused on functional maturation of neuronal
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the cellular, thrombus, and organ levels? Would you like to be part of a prestigious doctoral network working to revolutionize personalized medicine by using cutting-edge in silico, in vitro, and in vivo
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-edge in silico, in vitro, and in vivo technologies to understand, predict and treat thrombosis? This is your chance!! Our goal: Develop multi-level thrombosis risk prediction models by integrating
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to perform research in the areas of in vitro and in vivo biological evaluation of natural products, isolation and structural characterization of natural products, and chemical modification, if necessary
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the specificity of each ABC-F. To obtain a comprehensive understanding and to limit risks, we propose a two-pronged approach combining global in vivo and in vitro methods. The in vivo methods are intended
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for a research engineer with the experience and knowledge to independently perform experimental work related to human cell reprogramming and to conduct both in vitro and in vivo studies in animal models
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understanding of embryology. Practical skills in in vitro fertilization, embryology and advanced microscopy or genomics. Scientific writing experience. Required License/Registration/Certification N/A Physical
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in vitro, in vivo, and in silico methods, ideally integrating clinical or translational data. Key deliverables of the project are: Identification and functional validation of specific microcircuit(s