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Conceptual Delimitations related to the Philosophical Approaches on Synthetic Biology

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  • Olivia Macovei

    (PhD Student, Doctoral School of Social and Humanistic Sciences, Stefan cel Mare University of Suceava, Romania)

Abstract

Synthetic biology is an area of ​​technological development and innovative scientific research at the crossroads between biology and technology (bioengineering), that aims to create artificial living systems, either by redesigning living systems that already exist in the natural environment, or by producing organic systems that are quasi-biological, which emulate organic life. A number of research methods and technologies are incorporated in the development of synthetic biology, including genetic engineering, molecular biology and bio-molecular engineering, biophysics, chemical engineering, evolutionary biology, computer and computing engineering, genetics etc. The article aims to analyze the meanings of the term synthetic biology and the technological path that made the emergence of synthetic biology possible, the technological applications of synthetic biology, and starting from all this, to present a series of philosophical perspectives on synthetic biology.

Suggested Citation

  • Olivia Macovei, 2020. "Conceptual Delimitations related to the Philosophical Approaches on Synthetic Biology," Logos Universalitate Mentalitate Educatie Noutate - Sectiunea Filosofie si Stiinte umaniste/ Logos Universality Mentality Education Novelty - Section: Philosophy and Humanistic Sciences, Editura Lumen, Department of Economics, vol. 8(2), pages 83-104, December.
    • Handle: RePEc:lum:rev16f:v:8:y:2020:i:2:p:83-104
    DOI: https://doi.org/10.18662/lumenphs/8.2/47
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    References listed on IDEAS

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    1. Marie-Laure Cabon-Dhersin & Shyama V. Ramani, 2007. "Opportunism, Trust and Cooperation," Rationality and Society, , vol. 19(2), pages 203-228, May.
    2. Antoine R. Adamantidis & Feng Zhang & Alexander M. Aravanis & Karl Deisseroth & Luis de Lecea, 2007. "Neural substrates of awakening probed with optogenetic control of hypocretin neurons," Nature, Nature, vol. 450(7168), pages 420-424, November.
    3. Michael B. Elowitz & Stanislas Leibler, 2000. "A synthetic oscillatory network of transcriptional regulators," Nature, Nature, vol. 403(6767), pages 335-338, January.
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      More about this item

      Keywords

      synthetic biology; philosopy of technology; technoethics;
      All these keywords.

      JEL classification:

      • A23 - General Economics and Teaching - - Economic Education and Teaching of Economics - - - Graduate

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