296 density-functional-theory-molecular-dynamics Postdoctoral positions at Nature Careers
Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
models Who we are The Department of Molecular Biology and Genetics is part of the Faculty of Natural Sciences, Aarhus University and comprises research within the areas of Plant Molecular Biology
-
Postdoctoral Research Associate Position to work on the biophysics of sequence-structure-function relationships of intrinsically disordered protein regions (IDRs). IDRs use different types of sequence-encoded
-
culture work. Previous solid experience in molecular cloning. Previous experience from work related to gene editing is desired, but is not an absolute requirement. Previous experience from work involving
-
conduct functional assays to validate molecular mechanisms of purified proteins. - Execute structural studies of target proteins using single-particle cryo-EM. - Cryo-EM data analysis - Draft manuscripts
-
that mimick human striatal function and we are using these systems to study the mechanisms of Parkinson’s disease. The system, that involves a high density multielectrode array enables us to measure single
-
knowledge about the molecular mechanisms of normal neural development (for example axon guidance) and to link abnormal development with neural function and dysfunction. You will receive training
-
neurodevelopment and neurodegeneration of the visual system. Our team applies interdisciplinary approaches, combining multi-omics, genetics, molecular biology, evolutionary biology, viral tools, advanced
-
A postdoctoral associate position is available to study the molecular and circuit basis of sleep. We use sophisticated genetic approaches in Drosophila and mice to study the genes and circuitry
-
by rigorous training on project management skills. They will have access to state-of-the-art computing for high-throughput data analysis and molecular profiling technology. Our lab has a great track
-
development for brain disorders, leveraging stem cell-derived organoid models and gene targeting tools. Our recent work demonstrated that stem cell models offer a unique opportunity to study disease phenotypes