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biorefinery sequences to the microalgal biomasses for recovery of proteins, omega-3-rich lipids and polysaccharides applied in nutraceuticals, food, feed and beyond. Your focus is primarily on extraction and
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to upcycle nutrients from saline seafood process waters, while simultaneously producing valuable biomass. A core of the project is to tailor mild biorefinery sequences to the microalgal biomasses for recovery
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, microbiology, biotechnology, ecology, bioinformatics, or related disciplines. Experience with DNA-based analytical methods (e.g., qPCR, sequencing, metabarcoding, or eDNA) is required. Previous work with
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hallucination-based frameworks can now generate symmetric oligomers, cages, and backbones while optimizing sequence properties. An emerging frontier focuses on designing proteins that act as templates
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higher education teaching and learning. Detailed description of the work duties, such as: Method development in AI-driven protein design Production of designed sequences targeted for experimental testing
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the compositional genomic analyses in over a dozen sequencing consortia, whose results were published in Science, Nature, PNAS, and Genome Research. Dr. Elhaik's lab is famous for its population genomics and
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esophageal organoids from both healthy and inflamed epithelium. You will characterize how inflammation impacts organoid development and architecture using IF and single-cell sequencing. In addition, you will
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tetramers, BCR/TCR sequencing, single-cell multi-omics (RNA/ATAC/CITE/TCR-seq), and functional assays to map antiviral responses at high resolution. This project will be carried out as a close collaboration
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The supervisor for this position, Dr. Eran Elhaik, led the compositional genomic analyses in over a dozen sequencing consortia, whose results were published in Science, Nature, PNAS, and Genome
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molecular tools (e.g., CRISPR-based genome engineering), computational algorithms, and DNA/RNA sequencing and synthesis to design useful cell behaviors. The scope of this project is to combine multi-gene