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Foundations for engineering biology

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  • Drew Endy

    (Massachusetts Institute of Technology)

Abstract

Engineered biological systems have been used to manipulate information, construct materials, process chemicals, produce energy, provide food, and help maintain or enhance human health and our environment. Unfortunately, our ability to quickly and reliably engineer biological systems that behave as expected remains quite limited. Foundational technologies that make routine the engineering of biology are needed. Vibrant, open research communities and strategic leadership are necessary to ensure that the development and application of biological technologies remains overwhelmingly constructive.

Suggested Citation

  • Drew Endy, 2005. "Foundations for engineering biology," Nature, Nature, vol. 438(7067), pages 449-453, November.
    • Handle: RePEc:nat:nature:v:438:y:2005:i:7067:d:10.1038_nature04342
    DOI: 10.1038/nature04342
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    Cited by:

    1. Nylund, Petra A. & Ferràs-Hernández, Xavier & Pareras, Luis & Brem, Alexander, 2022. "The emergence of entrepreneurial ecosystems based on enabling technologies: Evidence from synthetic biology," Journal of Business Research, Elsevier, vol. 149(C), pages 728-735.
    2. Ovidiu Lipan & Jean-Marc Navenot & Zixuan Wang & Lei Huang & Stephen C Peiper, 2007. "Heat Shock Response in CHO Mammalian Cells Is Controlled by a Nonlinear Stochastic Process," PLOS Computational Biology, Public Library of Science, vol. 3(10), pages 1-12, October.
    3. VAN DEN OORD, Ad & VAN WITTELOOSTUIJN, Arjen & DUYSTERS, Geert & GILSING, Victor, 2010. "The ecology of technology: An empirical study of US biotechnology patents from 1976 to 2003," ACED Working Papers 2010008, University of Antwerp, Faculty of Business and Economics.
    4. Featherston, Charles R. & Ho, Jae-Yun & Brévignon-Dodin, Laure & O'Sullivan, Eoin, 2016. "Mediating and catalysing innovation: A framework for anticipating the standardisation needs of emerging technologies," Technovation, Elsevier, vol. 48, pages 25-40.
    5. Chih-Yuan Hsu & Bor-Sen Chen, 2016. "Systematic Design of a Metal Ion Biosensor: A Multi-Objective Optimization Approach," PLOS ONE, Public Library of Science, vol. 11(11), pages 1-16, November.
    6. Naira R. Matevosyan, 2018. "Techno-borne Organs: Medical, Legal, and Policy Concerns," Journal of the Knowledge Economy, Springer;Portland International Center for Management of Engineering and Technology (PICMET), vol. 9(2), pages 544-560, June.
    7. Ernst Weber & Jörg Birkenfeld & Jürgen Franz & Uwe Gritzan & Lars Linden & Mark Trautwein, 2017. "Modular Protein Expression Toolbox (MoPET), a standardized assembly system for defined expression constructs and expression optimization libraries," PLOS ONE, Public Library of Science, vol. 12(5), pages 1-14, May.
    8. Torgersen, Helge & Bogner, Alexander & Kastenhofer, Karen, 2013. "The Power of Framing in Technology Governance: The Case of Biotechnologies (ITA-manu:script 13-01)," ITA manu:scripts 13_01, Institute of Technology Assessment (ITA).
    9. Simeon D. Castle & Michiel Stock & Thomas E. Gorochowski, 2024. "Engineering is evolution: a perspective on design processes to engineer biology," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    10. Mario A Marchisio & Jörg Stelling, 2011. "Automatic Design of Digital Synthetic Gene Circuits," PLOS Computational Biology, Public Library of Science, vol. 7(2), pages 1-13, February.
    11. T. Kuiken & G. Dana & K. Oye & D. Rejeski, 2014. "Shaping ecological risk research for synthetic biology," Journal of Environmental Studies and Sciences, Springer;Association of Environmental Studies and Sciences, vol. 4(3), pages 191-199, September.
    12. Lorenzo Pasotti & Nicolò Politi & Susanna Zucca & Maria Gabriella Cusella De Angelis & Paolo Magni, 2012. "Bottom-Up Engineering of Biological Systems through Standard Bricks: A Modularity Study on Basic Parts and Devices," PLOS ONE, Public Library of Science, vol. 7(7), pages 1-10, July.

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