Upscaling Engineering of Synthetic Biomachines: Difference between revisions
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The long-term goal of this research activity is to formulate, demonstrate, and evaluate a new model for biological systems engineering. To develop and demonstrate this approach, a team of research engineers will integrate components and circuits created by others to implement a non-trivial biological function. The demonstration will include standardizing components and chasses, “routinizing” the required workflows, and systematizing the design abstractions and tools. This project is an 18-month seed effort focused on proof-of-concept integration in synthetic cells that would yield a novel, multicomponent “biomachine”, while generating and disseminating a set of component standards, design abstractions, software tools, laboratory protocols, and open-source artifacts (hardware, software, wetware) to the community. | The long-term goal of this research activity is to formulate, demonstrate, and evaluate a new model for biological systems engineering. To develop and demonstrate this approach, a team of research engineers will integrate components and circuits created by others to implement a non-trivial biological function. The demonstration will include standardizing components and chasses, “routinizing” the required workflows, and systematizing the design abstractions and tools. This project is an 18-month seed effort focused on proof-of-concept integration in synthetic cells that would yield a novel, multicomponent “biomachine”, while generating and disseminating a set of component standards, design abstractions, software tools, laboratory protocols, and open-source artifacts (hardware, software, wetware) to the community. | ||
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|Title=Upscaling Engineering of Synthetic Biomachines | |Title=Upscaling Engineering of Synthetic Biomachines | ||
Revision as of 00:32, 10 July 2023
The long-term goal of this research activity is to formulate, demonstrate, and evaluate a new model for biological systems engineering. To develop and demonstrate this approach, a team of research engineers will integrate components and circuits created by others to implement a non-trivial biological function. The demonstration will include standardizing components and chasses, “routinizing” the required workflows, and systematizing the design abstractions and tools. This project is an 18-month seed effort focused on proof-of-concept integration in synthetic cells that would yield a novel, multicomponent “biomachine”, while generating and disseminating a set of component standards, design abstractions, software tools, laboratory protocols, and open-source artifacts (hardware, software, wetware) to the community.
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This project is funded through Schmidt Futures.
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