96 molecular-modeling-or-molecular-dynamic-simulation Fellowship research jobs at Nature Careers
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systematic perturbation approaches. Systems Biology: Integrate multi-omic datasets to map the molecular networks influenced by mito-MPs. Machine Learning: Apply cutting-edge protein language models and AI
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is currently employing multifaceted approaches and mouse disease models to uncover the novel immunostimulatory or immunosuppressive mechanisms of cGAS-STING pathway in antitumor immunity and
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interdisciplinary structural biologists is expanding. We are looking for a Research Fellow fascinated by the structural basis of molecular functions. You will study the structure-function relationships in RNA-protein
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metabolic syndrome. Leveraging multiomics, mouse genetics, hiPS cells, and electrophysiology, the lab works on molecular mechanism of cardiometabolic oncology. For more information on Dr. Wang’s lab please
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emerging areas of interest, Birmingham is a dynamic place to work. We have ambitious plans to expand our research activity and are in an exciting period of growth: major investment from the University has
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Join Dr. Marcel van den Brink’s multidisciplinary team to explore innovative ways to decipher the molecular mechanisms by which the microbiome contributes to the biology of bone marrow
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lead the in vivo functional analysis of this gene using conditional KO mouse models, with a focus on brain development, neuronal differentiation, and seizure susceptibility. All models are already
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transduction and orthotopic animal models. Previous experience with CARTs, molecular cloning and animal models is essential. The post holder will join a team of scientists at ICH as well as linking with
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to: rhizosphere and phyllosphere microbiology microbial evolution molecular and/or structural aspects of plant-microbe or plant-fungal interactions the molecular biology of soil-dwelling bacteria or fungi
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toxicities, neuron-glia interactions, genetics and epigenetics will provide insights in identifying novel biomarkers and drug targets. Expand and improve skills: disease models based on genome-modified animals