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Marco A Vindas Associate Professor +47 92864946 marco.vindas@nmbu.no Where to apply Website https://universitypositions.eu/jobs/168966586-phd-scholarship-in-stress-biology… Requirements Research
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and the plant metabolism. You enjoy performing experimental work (e.g. molecular biology, analytical chemistry using LC-MS, plant transformation), as well as data analysis and writing. You enjoy working
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Description Objectives: 1) Improve the biomanufacturing efficiency through a combination of advanced computational and experimental techniques (in model organisms such as P. pastoris and C. necator), along with
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to evaluate the piezocatalytic performance of developed materials, including tests under various mechanical stress conditions and contaminant types. Data Analysis and Reporting: Analyze experimental results
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of biology. Proficiency in scientific English. Skills: experimental work on biological samples; recording spectra (UV-visible, fluorescence, EPR, etc.); data analysis. Interpersonal skills: ability to work
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of computational or experimental biomechanics, proposing a research focus complementary to the biomechanics activities already existing within the A&M Department (which include: biomechanics of hard tissues
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on experimental analysis, theoretical understanding and predictive modelling of complex mechanical behavior in engineering materials at different length scales (e.g, plasticity, damage, fracture), which emerges
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CIIMAR - Interdisciplinary Center of Marine and Environmental Research - Uporto | Portugal | 14 days ago
infection, analysis of samples for molecular biology, autonomous in techniques for assessment immune responses and oxidative stress in fish, autonomous in statistical methods. In the event the degree
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of crops in cooperation with plant breeders. The natural enrichment of 13C in plant material is affected by stomatal closure, and therefore by the level of drought stress in crops. Comparing genotypes
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challenging. We seek to address this measurement problem by developing a coherent strategy for integrating inputs from several critical experimental techniques to perform fully atomistic structural refinements