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aim to leverage high-throughput phenotyping to create knowledge about plant function at the physiological level and use forward genetics approaches to unravel the genetic architecture of root traits
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to leverage high-throughput phenotyping to create knowledge about plant function at the physiological level and use forward genetics approaches to unravel the genetic architecture of root traits. Our most
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aim to leverage high-throughput phenotyping to create knowledge about plant function at the physiological level and use forward genetics approaches to unravel the genetic architecture of root traits
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of Mg-LPSO alloys that have undergone degradation in a physiological environment using X-ray nanotomography with the highest achievable resolution Localization and focused ion beam preparation
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housing system on the welfare of laboratory animals and to compare it with the current standard housing conditions. Indicators of well-being include both the behaviour of the animals and physiological
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Full time position starting 1. September or as soon as possible thereafter. 07.05.2025, Wissenschaftliches Personal The Plant Micronutrient Physiology group led by Dr. Thomas Alcock is a new group
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calculation of mixture toxicity Development and application of chemical analytical methods Application of physiology-based kinetic (PBK) modelling for the extrapolation of in vitro to in vivo concentrations
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Max Planck Institute of Molecular Plant Physiology • | Potsdam, Brandenburg | Germany | about 19 hours ago
is at the focus of the IMPRS. We conduct curiosity-driven, basic research centring around the following questions: How do primary physiological processes such as photosynthesis, central metabolism and
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their ribbon synapses do not function normally. We use genetically modified mice to better understand the role of deafness genes in hearing function. With a direct connection between the lab work in mice
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Max Planck Institute of Molecular Physiology, Dortmund | Dortmund, Nordrhein Westfalen | Germany | 3 months ago
synthetic biology? The International Max Planck Research School for Living Matter: from molecules to dynamics (IMPRS-LM) is a joint PhD program between the Max Planck Institute of Molecular Physiology