101 algorithm-development-"Multiple"-"Simons-Foundation"-"Embry-Riddle-Aeronautical-University" Fellowship positions at Nature Careers
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diverse classes of inhibitory neurons are specified and integrated into brain circuits during development. Our work bridges developmental neurobiology, disease modeling, and systems neuroscience. To do
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cell research, whole-brain clearing, and in vivo imaging, we're dedicated to unraveling the mysteries of circuit development and assembly. If you're a highly motivated, resilient, and objective directed
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progression once in post to £48,149 Grade: 7 Full Time, Fixed Term contract up to March 2028 Closing date: 13th August 2025 Background This research project aims to establish the theoretical and algorithmic
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opportunities to build an international research portfolio. The post holder will work on developing and testing study design and data analysis methods, particularly related to cluster randomised trial designs and
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development and implications in neurodevelopmental disorders. Using Drosophila , mouse models, and human brain organoids, our work is at the forefront of neuroscience research, with recent publications in PNAS
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partners. Main Duties Improve, develop, implement, and apply advanced computational tools and workflows to process, analyse, and interpret large-scale LCMS-based metabolomics datasets across multiple species
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the following things we are working on this may be the perfect opportunity: 1. Development of cell-free DNA (mutation and methylation), RNA, and exosomal-based liquid assays for early cancer detection
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opportunities in many Pediatric sub-specialties, not exclusive to Hematology and Oncology. Key Responsibilities Research Design & Execution: Develop and lead clinical informatics research projects focused
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approaches and biochemical assays to target key proteins. This funded position is for a postdoctoral trainee interested in aiding the development of novel therapeutics for treating cancer or metabolic disease
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autoimmunity. The overarching goal of the Wu lab is to harness innate immunity to develop new immunotherapies for cancer and inflammatory diseases. Our recent research has been published in top-tier journals