Robust Multi-Layer Control Systems for Cooperative Cellular Behaviors

Project description (typically about a paragraph)

Objectives

Description of the main objectives of the project

References

• BioCRNpyler: Compiling chemical reaction networks from biomolecular parts in diverse contexts. William Poole, Ayush Pandey, Zoltan Tuza, Andrey Shur, Richard M. Murray. PLoS Computational Biology, 18(4), e1009987, 2022.
• Layered Feedback Control Overcomes Performance Trade-Off in Synthetic Biomolecular Networks. Chelsea Hu, Richard M. Murray. Nature Communications 13(1):1-13, 2022.
• Robustness Guarantees for Structured Model Reduction of Dynamical Systems. Ayush Pandey, Richard M. Murray. IEEE Conference on Decision and Control (CDC), 2021.
• Synthetic mammalian signaling circuits for robust cell population control. Yitong Ma, Mark W. Budde, Michaëlle N. Mayalu, Junqin Zhu, Richard M. Murray, Michael B. Elowitz. Submitted, Cell Systems.
• A two-state ribosome and protein model can robustly capture the chemical reaction dynamics of gene expression. Ayush Pandey, Richard M. Murray. 2020 Winter q-bio.
• Layered Feedback Control Improves Robust Functionality across Heterogeneous Cell Populations. Xinying Ren, Richard M. Murray. 2020 Winter q-bio.
• A geometric and structural approach to the analysis and design of biological circuit dynamics: a theory tailored for synthetic biology. John P. Marken, Fangzhou Xiao, Richard M. Murray. 2020 Winter q-bio.
• Theoretical Design of Paradoxical Signaling-Based Synthetic Population Control Circuit in E. coli. Michaëlle N. Mayalu, Richard M. Murray. 2020 Winter q-bio.
• Model Reduction Tools For Phenomenological Modeling of Input-Controlled Biological Circuits. Ayush Pandey, Richard M. Murray. 2020 Winter q-bio.
• An automated model reduction tool to guide the design and analysis of synthetic biological circuits. Ayush Pandey, Richard M. Murray. 2019 International Workshop on Biodesign Automation (IWBDA).
• Bacterial Controller Aided Wound Healing: A Case Study in Dynamical Population Controller Design. Leopold N. Green, Chelsea Y. Hu, Xinying Y. Ren, Richard M. Murray. qBio Conference 2019.
• Design of a genetic layered feedback controller in synthetic biological circuitry. Chelsea Y. Hu, Richard M. Murray. 2019 Synthetic Biology: Engineerinng, Evolution and Design (SEED) Conference.
• Control of density and composition in an engineered two-member bacterial community. Reed D. McCardell, Ayush Pandey, Richard M. Murray. Submitted, 2019 Synthetic Biology: Engineering, Evolution and Design (SEED) Conference.
• Hard Limits And Performance Tradeoffs In A Class Of Sequestration Feedback Systems. Noah Olsman, Ania-Ariadna Baetica, Fangzhou Xiao, Yoke Peng Leong, John Doyle, Richard Murray. Submitted, Cell Systems (Nov 2018).
• Guidelines for Designing the Antithetic Feedback Motif. Ania-Ariadna Baetica, Yoke Peng Leong, Richard M. Murray. Physical Biology, 17(5):055002, 2020.
• Cooperation Enhances Robustness of Coexistence in Spatially Structured Consortia. Xinying Ren, Richard M Murray. Submitted, 2019 European Control Conference.
• Model of Paradoxical Signaling Regulated T-Cell Population Control for Design of Synthetic Circuits. Michaelle N. Mayalu, Harman Mehta and Richard M. Murray. Submitted, 2019 European Control Conference (ECC).
• Role of interaction network topology in controlling microbial population in consortia. Xinying Ren, Richard M Murray. To appear, 2018 Conference on Decision and Control (CDC).
• Long-distance communication in synthetic bacterial consortia through active signal propagation. James M Parkin, Richard M Murray. 2018 Synthetic Biology: Engineering, Evolution and Design (SEED) Conference.
• Single day construction of multi-gene circuits with 3G assembly. Andrew D Halleran, Anandh Swaminathan, Richard M Murray. 2018 Synthetic Biology: Engineering, Evolution and Design (SEED) Conference.
• Control of bacterial population density with population feedback and molecular sequestration. Reed D McCardell, Shan Huang, Leopold N Green, Richard M Murray. 2018 Winter q-bio.
• Cell-free and in vivo characterization of Lux, Las, and Rpa quorum activation systems in E. coli. Andrew Halleran, Richard M. Murray. ACS Synthetic Biology, 7(2):752–755, 2017.
• Population regulation in microbial consortia using dual feedback control. Xinying Ren, Ania-Ariadna Baetica, Anandh Swaminathan, Richard M. Murray. Submitted, 2017 Conference on Decision and Control (CDC).
• Quantitative Modeling of Integrase Dynamics Using a Novel Python Toolbox for Parameter Inference in Synthetic Biology. Anandh Swaminathan, Victoria Hsiao, Richard M Murray. 2017 Synthetic Biology: Engineering, Evolution, and Design (SEED) Conference.

The project or effort depicted was or is sponsored by the Defense Advanced Research Projects Agency (Agreement HR0011-17-2-0008). The content of the information does not necessarily reflect the position or the policy of the Government, and no official endorsement should be inferred.