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Field
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interactome analysis in contexts of health and disease. Projects have a strong dry-lab focus but can incorporate molecular or translational wet lab components if sought. The 3-year PhD program will be co
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biochemical analysis (COD, nutrients, solids, moisture, biodegradability). • Operation of grinding equipment, filtration rigs and separator technologies. • Sewer-hydraulics modelling and assessment of blockage
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Sequencing (NGS) data from wet laboratory experiments and from the clinics. Using a holistic computational framework, you will study known and potentially so far unknown regulators that mediate the cellular
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experiments will make use of a variety of laboratory systems designed to simulate early Earth environments, including fluctuating redox conditions, wet–dry cycles, and interactions with mineral surfaces. Beyond
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with a biomedical focus. Furthermore, you need to have wet-lab research experience, be highly motivated, and have a well-documented interest in regenerative sciences. Language requirements As the PhD
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of RNA samples from breast cancer patients. Do wet lab experiments exploring mechanisms regulating the fate of dsRNA in cells. Create scripts to analyze the output of experiments. Perform bioinformatic
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academic record Experience in wet lab work High level of motivation and initiative Communication and teamwork skills Very good written and spoken English skills Data analysis and programming skills
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term of effective population size. Should this not be the case, the role of mutation accumulation may be investigated. Practical work involves collecting of plant material, wet lab work, bioinformatics
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for tracking biodiversity change Soil food web functional capacity under climate extremes Ecology and biodiversity in wet forested environments Uncover how microbial respiration shapes carbon storage in soils
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sequencing, cell culture and microscopy. A dynamic and highly interdisciplinary team including wet-lab scientists, computer scientists, and clinicians. Cross-disciplinary collaborations and training