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candidate will have research experience with nucleic acid extraction methods and PCR assay design. This is a full-time position with a 12-month service period, with the possibility for yearly renewal
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disease with a focus on Alzheimer’s Disease. Computational models will be developed that utilize data obtained from a wide range of experiments, from basic biochemical methods to advanced imaging techniques
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), identifying specific genomic variants and their relationship to clinical manifestations, and understanding the molecular mechanisms behind these rare disorders. • Methods Development: Developing novel
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, educators, and software engineers from I-LABS who want to bring the best methods of bilingual language teaching to early education classrooms. For this donor-funded research, the primary responsibilities
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disorders) populations. Our collaborative team is focusing on face-to-face interaction between children and their parents employing various methods to measure neural and behavioral responses during live
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clinicians at WashU Medicine. The selected candidate will play a pivotal role in refining and utilizing our AI-powered advanced MRI methods to study human brain cellular microstructure and functioning
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datasets (e.g., forest inventory, remote sensing, climate data) across Washington, Oregon, and/or California. Conducting advanced spatial and statistical analyses using methods implemented in R or similar
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Diseases. Towards this end, various cell lines combined with molecular, cellular, biochemical and pharmacological methods will be utilized to functionally characterize AD-associated circRNAs for subsequent
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teams and effectively communicate research findings. Desired Qualifications Background in DNA plasmid assembly methods (i.e. cloning) and cell culture (transfection/transduction) Background in CRISPR/Cas9
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, and biophysical modeling. • Experiment with collaborative research methods, contributing to the lab’s graph-based notetaking and knowledge base. • Explore innovative research dissemination methods