133 systems-science-"https:"-"https:"-"https:"-"https:"-"BioData" positions at Nature Careers in Germany
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is to accelerate biomedical research by developing and combining enabling technologies. Our major research fields are AI-based organ mapping, Tissue engineering and Precision medicine in cancer
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-throughput and AI-driven antifungal discovery fungal symbiosis an& pathogenicity fungal metabolites, epigenetics & microbiome structuring computational microbiomics & systems biology of fungal infections
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. Strong interest in laboratory automation. Entrepreneurial mindset and behaviour. Experience in isolation and culture of primary T cells from PBMCs is an advantage. Experience with liquid handling systems
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partnerships, we accelerate the transfer of new ideas from the lab to real-life applications, improving lives. At the Institute for Intelligent Biotechnologies (iBIO) our major goal is to accelerate biomedical
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cell-type targeting Your profile Enrolled Master's student in Bioengineering, Biochemistry, Biomedical Sciences, or related discipline Solid laboratory experience is required Interest in nanotechnology
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biology techniques such as qPCR and bulk and single-cell sequencing. Our work supports the testing and development of drugs targeting novel immunological pathways. The overarching goal of our research is to
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to create a space where scientific discovery in cancer research is transformed into benefits for human health. The Division of Soft-Tissue Sarcoma at DKFZ applies cutting-edge technology to study and dissect
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the organization. Your profile Bachelor's or master's degree in computer science, computer engineering, cybersecurity or a related field and relevant security certifications (e.g., OSCP, CCSP, CISSP, CISM) from a
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pharmacogenes Knowledge of cancer biology, pharmacogenomics, and drug treatment is an advantage The working language is English, so good English skills are required. We Offer Excellent framework conditions: state
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phototrophic endosymbionts have played central roles in the radiation of complex life and are critical to global nutrient cycles. Yet, global change is pushing these symbioses and the ecosystems they support to