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remain undiscovered. We are interested in developing new approaches (e.g., engineered microenvironments, mixed species cultures) for expanding microbial culture capabilities, as well as evaluating culture
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for this project include state-of-the-art automation for microbial engineering, culture, and measurement. key words Machine Learning; Biology; Bioinformatics; Data Mining; Genetics; Active Learning Eligibility
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RAP opportunity at National Institute of Standards and Technology NIST Drug Toxicity Measurements with Tissues-on-chips and Microphysiologic Systems Location Physical Measurement Laboratory
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-generation” DNA sequencing, along with multiplexed affinity-based protein measurements. Technology development is based on microfluidic systems for cell manipulation and culture, and sample preparation
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RAP opportunity at National Institute of Standards and Technology NIST Multiplexed Assays for Cell-based Production of Biopharmaceuticals Location Material Measurement Laboratory, Biosystems and
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RAP opportunity at National Institute of Standards and Technology NIST Microfluidics and Lab-on-a-Chip Technologies for Controlled Molecular Self-Assembly, Analytical Biochemistry, and
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responsible for engineering and characterizing microbial communities in vitro—for example, using rational design and fabrication of controlled microenvironments for microbial culture; 2D and 3D bioprinting
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Analytical Technology for Biopharmaceutical Process and Product Characterization NIST only participates in the February and August reviews. Biopharmaceuticals are protein-based therapeutics produced
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work is anticipated in the areas of microresonator design, engineering biology/biomanufacturing, dioxygen imaging in 3D cell culture, and structural biology methods development. Knowledge of microwave
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market value. Multiple disciplines will be considered, including engineering (e.g., civil, industrial, operations research, computer science), economics (applied, micro, macro), social sciences (e.g