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and damage to neurons, and the major cause of permanent disability in multiple sclerosis (MS) and other neurological diseases. Using the latest in computer modeling, molecular and imaging technology, we
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dynamics in models of brain injury and neurodegeneration (amyotrophic lateral sclerosis / ALS and Alzheimer’s disease / AD). Projects will involve in vivo multiphoton imaging of glia, vascular, perivascular
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combining chronic in vivo imaging (two-photon microscopy, fiber photometry, GRIN lens imaging) with genetic and molecular approaches to dissect how cell type- and projection-specific plasticity orchestrate
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approaches including optogenetics, calcium imaging, fiber photometry, in vitro and in vivo electrophysiology and behavioral studies. Highly motivated applicants must hold a MSc degree in Neuroscience
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with advanced biochemistry, genetic, and imaging techniques Who Should Apply? We welcome applicants with a strong background in molecular biology, neuroscience, biochemistry, or genetics. Eligible
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, biology, biomedical sciences, or a related field. Applicants should have a background in molecular and cellular biology techniques, stereotaxic surgery, imaging, microscopy, behavioural and statistical
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, advanced brain imaging, and now single-cell neurobiology. It remains a global leader in integrating cutting-edge science with clinical practice to train future psychiatric researchers and clinicians. With
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(immunohistochemistry and in situ hybridization) FACS and flow cytometry Proteomics analysis Computer image analysis We are looking for motivated candidates who hold a B.Sc. or MSc. in biology or related discipline. They
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therapeutic targets for stroke. We use a host of techniques including but not limited to large-scale mesoscopic calcium imaging, optogenetics, gene targeting with viral vectors or transgenics, transcriptomics