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function, but to develop the molecular tools the global research community needs to investigate them. This is fundamental, high-impact bioscience with the potential to unlock new therapeutic strategies
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their targets are simulated at the atomistic level. The most widely-used tool for this are molecular mechanics force fields, such as those developed by the Open Force Field Initiative [https://doi.org
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software packages. The Person Knowledge, Skills and Experience Expertise in classical molecular mechanics. Knowledge of biomolecular simulation methods. Experience in quantum mechanical calculations
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will build on ongoing work from the group in the design, synthesis and study of functional organic macrocycles and molecular capsules and their use primarily in catalysis, but also molecular recognition
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the genetic, molecular, cellular, and whole systems level. Cross-cutting strengths lie in our world-leading expertise in neuroplasticity, interdisciplinary neuro-immune research, high-throughput sequencing
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interatomic-potentials (MLIPs), refined for molten salt mixtures hosting other nuclear material solutes. We will perform density functional theory (DFT) calculations and molecular dynamics (MD) simulations
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to understand the risk of these abundant pollutants in the context of other co-occurring environmental stressors. The influence of ocean warming on the biouptake of nanoplastics will be explored under simulated
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pioneering translational machine learning neuroimaging project with a broader interest linking imaging characteristics to molecular biology and neurodevelopmental symptoms. The project is a 3 year position
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-home rates. You will learn a wide range of molecular modelling techniques, as well as collaborative software development and computational skills providing expertise for a broad range of future careers
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project with a broader interest linking imaging characteristics to molecular biology and neurodevelopmental symptoms. The project is a 3 year position supported by the Rosetrees Trust, and we would support