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with an interest in applying advanced methods to questions in neuropsychiatric research. The candidate must have: A PhD in neuroscience, neuroimaging, medicine, computational science, physics, statistics
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unexplored intersection between social cognition, attentional processing, and gaze perception. We use several different methods, including functional magnetic brain imaging (fMRI), behavioral and
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work on aspects of Bruton’s Tyrosine Kinase (BTK) ranging from the use of BTK inhibitors for treatment of lymphoid malignancies to curative gene correction in immunodeficiency patients. The postdoc will
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and novel therapeutic targets relevant to metabolic disease and fibrosis. Key responsibilities include Establishment and use of 3D in vitro fibrosis and metabolic disease models. Gene silencing and
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Research in our lab integrates a variety of approaches, making us open to individuals from diverse backgrounds. A foundation in quantitative fields (e.g., mathematics, engineering, computer science, physics
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concerning mental health outcomes in autistic people. The position offers an opportunity to apply epidemiological methods to large-scale registry data, and to be involved in innovative new research within
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viral engineering. This project brings the two laboratories together to build a shared experimental platform that neither lab could develop alone. The postdoc will be primarily based in the Stagkourakis
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doctorate. Applicants who have not completed a doctorate at the end of the application period may also apply, provided that all requirements for a completed degree are met before the (intended) start date
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-read sequencing and Illumina short-read sequencing, and apply advanced bioinformatic analyses to assemble contigs, reconstruct the viral genome, and define its genetic organization. Identified viral
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programs in normal and aberrant blood formation. This groundbreaking project will use single-cell full-length transcriptomics to create a comprehensive atlas of alternative splicing in human hematopoiesis