CAREER: Self-Assembly of Functional Systems Within Live Cells
University Of Washington, Seattle WA
Investigators
Abstract
CAREER: Self-assembly of functional systems within live cells The objective of this proposal is to develop a fundamentally new way to construct heterogeneous functional systems via self-assembly inside living cells. The approach is to fabricate functional inorganic nano-scale components, to microinject them into live cells, and to allow them to self-assemble into an interconnected structure. The self-assembly is driven by and programmed with specific covalent and supramolecular bonds resultant from the interaction of biomolecules (e.g. polypeptides) and inorganic surfaces. Intellectual merit: The project develops a fundamental understanding of biomolecule/inorganic surface interactions and develops a methodology to use the molecules to self-assemble structures, made from parts originating in incompatible fabrication processes, from the bottom-up. The project pioneers a new paradigm in constructing artificial structures inside live cells and provides a new venue for characterization of live cells from within. This ability is critical in expanding the current understanding of biology and providing a new tool for studying biology at the single cell level. Broader Impact: One of the main objectives of this project is to train a new generation of engineers that are capable of conducting research at the interface between electrical engineering and biology. This training is provided by their active participation in the research program at high school, undergraduate, and graduate levels and is augmented by development of new courses in experimental nanofabrication, self-assembly, and engineering design of cells. One of the main focuses of the outreach program is to connect with the Native American high school students of the State of Washington and to encourage their active participation in research.
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