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  1. Design Under Randomness: How Variation Affects the Engineering of Biological Systems.Tero Ijäs - 2018 - Biological Theory 13 (3):153-163.
    Synthetic biology offers a powerful method to design and construct biological devices for human purposes. Two prominent design methodologies are currently used. Rational design adapts the design methodology of traditional engineering sciences, such as mechanical engineering. Directed evolution, in contrast, models its design principles after natural evolution, as it attempts to design and improve systems by guiding them to evolve in a certain direction. Previous work has argued that the primary difference between these two is the way they treat variation: (...)
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  • Reengineering Metaphysics: Modularity, Parthood, and Evolvability in Metabolic Engineering.Catherine Kendig & Todd T. Eckdahl - 2017 - Philosophy, Theory, and Practice in Biology 9 (8).
    The premise of biological modularity is an ontological claim that appears to come out of practice. We understand that the biological world is modular because we can manipulate different parts of organisms in ways that would only work if there were discrete parts that were interchangeable. This is the foundation of the BioBrick assembly method widely used in synthetic biology. It is one of a number of methods that allows practitioners to construct and reconstruct biological pathways and devices using DNA (...)
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  • A Philosophical Perspective on Evolutionary Systems Biology.Maureen A. O’Malley, Orkun S. Soyer & Mark L. Siegal - 2015 - Biological Theory 10 (1):6-17.
    Evolutionary systems biology is an emerging hybrid approach that integrates methods, models, and data from evolutionary and systems biology. Drawing on themes that arose at a cross-disciplinary meeting on ESB in 2013, we discuss in detail some of the explanatory friction that arises in the interaction between evolutionary and systems biology. These tensions appear because of different modeling approaches, diverse explanatory aims and strategies, and divergent views about the scope of the evolutionary synthesis. We locate these discussions in the context (...)
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  • The Diversity of Engineering in Synthetic Biology.Massimiliano Simons - 2020 - NanoEthics 14 (1):71-91.
    A recurrent theme in the characterization of synthetic biology is the role of engineering. This theme is widespread in the accounts of scholars studying this field and the biologists working in it, in those of the biologists themselves, as well as in policy documents. The aim of this article is to open this black-box of engineering that is supposed to influence and change contemporary life sciences. Too often, both synthetic biologists and their critics assume a very narrow understanding of what (...)
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  • Narrative methods for assessing “quality of life” in hand transplantation: five case studies with bioethical commentary.Emily R. Herrington & Lisa S. Parker - 2019 - Medicine, Health Care and Philosophy 22 (3):407-425.
    Despite having paved the way for face, womb and penis transplants, hand transplantation today remains a small hybrid of reconstructive microsurgery and transplant immunology. An exceptionally limited patient population internationally complicates medical researchers’ efforts to parse outcomes “objectively.” Presumed functional and psychosocial benefits of gaining a transplant hand must be weighed in both patient decisions and bioethical discussions against the difficulty of adhering to post-transplant medications, the physical demands of hand transplant recovery on the patient, and the serious long-term health (...)
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