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Bayesian computational methods for such (ill-posed) inverse problems and aims both at increasing their validity and at reducing their computational cost. In this project, we will focus on increasing validity
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specificity. Targeted proteomics enables the simultaneous quantification of large cytokine panels, offering high multiplexing at reduced variability and cost. In this project, we aim to develop a novel
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, which aims to identify novel targets for male contraception. In this research project, we will be using cutting edge sequencing datasets (e.g. single cell RNA-seq, methylome) as well as cell and tissue
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influenced corrosion (MIC) in marine environments. It uses AI-supported models, Bayesian data fusion, and real-time sensor data integration. Your responsibilities include: Development of a digital twin (DT
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role Join a project at the intersection of the developmental cell biology of the oncogene RAS and drug target validation in the Cancer Cell Biology group under the supervision of Prof. Daniel Abankwa
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of an inter-institutional, interdisciplinary effort to deconvolve the roles of chromatin-modifying enzymes in genome-wide gene regulation. These enzymes represent emerging drug targets in pediatric
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computational (deep-learning AI models) approaches to dissect cell-death signaling, with ultimate goals to identify novel therapeutic targets and approaches. The PI, Dr. Gong has been highly regarded in his
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chemical biologists. The researcher will also study how the immune microenvironment regulates response of breast and other cancers to chemotherapy/targeted therapies. The researcher will be expected
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(f/m/x) Our laboratory is dedicated to developing cutting-edge fluorescent probes that target chromatin components for advanced super-resolution microscopy. We investigate how the spatial organization
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Postdoctoral Research Associate - Basic and Translational Research Training in Pediatric Classical H
by training in the execution of statistically rigorous, hypothesis-driven research that probes the mechanistic basis of hematologic disease, uncovers new therapeutic targets, and translates