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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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spans animal evolutionary ecology, molecular ecology, and modelling of complex systems, and obtain interdisciplinary training in state-of-the-art approaches and techniques, which are highly south-after by
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environmental toxicology and early detection of neurological effects. The candidate will gain hands-on experience with cutting-edge techniques, including molecular and cellular biology, manipulation of neuronal
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investigate new strategies to protect and regenerate nerve cells after SCI by combining molecular biology, pharmacology, and gene therapy in translational models of central nervous system repair. The work will
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natural conditions in the laboratory. Marine phytoplankton, which act as the base of the marine food web and contribute to major global biogeochemical cycles, will be used as a model to understand
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discover and test candidate molecular and cellular mechanisms underlying the switch between structural brain plasticity and degeneration in response to experience, and how this in turn modifies behaviour
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cutting-edge molecular techniques and generate gene knockouts to identify new enzymes and pathways involved in this process. Finally, the PGR will utilise plant infection models and high-resolution
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discover and test candidate molecular and cellular mechanisms underlying the switch between structural brain plasticity and degeneration in response to experience, and how this in turn modifies behaviour
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(Beraza and Rushworth) whose work have a strong translational aim. This team will train the PhD student in a series of preclinical in vivo models; molecular biology and immunology methodologies; and complex
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plants. To better understand how distantly-related land plants defend themselves against pathogen infection, our group investigates the molecular genetic mechanisms controlling disease resistance in