Results for 'Genetic Engineering'

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  1.  52
    Regulation of Genetically Engineered (GE) Mosquitoes as a Public Health Tool: A Public Health Ethics Analysis.Zahra Meghani - 2022 - Globalization and Health 1 (18):1-14.
    In recent years, genetically engineered (GE) mosquitoes have been proposed as a public health measure against the high incidence of mosquito-borne diseases among the poor in regions of the global South. While uncertainties as well as risks for humans and ecosystems are entailed by the open-release of GE mosquitoes, a powerful global health governance non-state organization is funding the development of and advocating the use of those bio-technologies as public health tools. In August 2016, the US Food and Drug Agency (...)
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  2. Genetically Engineered Mosquitoes, Zika and Other Arboviruses, Community Engagement, Costs, and Patents: Ethical Issues.Zahra Meghani & Christophe Boete - 2018 - PLoS Neglected Tropical Diseases 7 (12).
    Genetically engineered (GE) insects, such as the GE OX513A Aedes aegypti mosquitoes, have been designed to suppress their wild-type populations so as to reduce the transmission of vector-borne diseases in humans. Apart from the ecological and epidemiological uncertainties associated with this approach, such biotechnological approaches may be used by individual governments or the global community of nations to avoid addressing the underlying structural, systemic causes of those infections... We discuss here key ethical questions raised by the use of GE mosquitoes, (...)
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  3. Genetic Engineering and The Non-Identity Problem.Tomasz Żuradzki - 2008 - Diametros 16:63-79.
    In my essay I consider the imaginary case of a future mother who refuses to undergo genetic alteration on her germline although she knows that her, as yet unconceived, child will have a serious genetic disorder. I analyze the good and bad points of two branches of arguments directed against her decision, consequentialist and rights-based. Then I discuss whether accepting one line of these arguments or the other makes a difference in moral assessment. I conclude that, although from (...)
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  4. Should Parents Genetically Engineer Their Children?Walter Veit - 2019 - Psychology Today.
    Imagine a world where everyone is healthy, intelligent, long living and happy. Intuitively this seems wonderful, albeit unrealistic. However, recent scientific developments in genetic engineering, namely CRISPR/Cas bring the question into public discourse, how the genetic enhancement of humans should be evaluated morally.
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  5.  71
    Should We Genetically Engineer Hogs?Gary Comstock - 1992 - Between the Species 8 (4):5.
    The paper argues that we should not genetically engineer hogs to suit the preferences of farmers and consumers.
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  6. Autonomy of Nations and Indigenous Peoples and the Environmental Release of Genetically Engineered Animals with Gene Drives.Zahra Meghani - 2019 - Global Policy 10 (4):554-568.
    This article contends that the environmental release of genetically engineered (GE) animals with heritable traits that are patented will present a challenge to the efforts of nations and indigenous peoples to engage in self‐determination. The environmental release of such animals has been proposed on the grounds that they could function as public health tools or as solutions to the problem of agricultural insect pests. This article brings into focus two political‐economic‐legal problems that would arise with the environmental release of such (...)
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  7. Bacteria Are Small but Not Stupid: Cognition, Natural Genetic Engineering and Socio-Bacteriology.J. A. Shapiro - 2007 - Studies in History and Philosophy of Biological and Biomedical Sciences 38 (4):807-819.
    Forty years’ experience as a bacterial geneticist has taught me that bacteria possess many cognitive, computational and evolutionary capabilities unimaginable in the first six decades of the twentieth century. Analysis of cellular processes such as metabolism, regulation of protein synthesis, and DNA repair established that bacteria continually monitor their external and internal environments and compute functional outputs based on information provided by their sensory apparatus. Studies of genetic recombination, lysogeny, antibiotic resistance and my own work on transposable elements revealed (...)
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  8. Embracing Change with All Four Arms: Post-Humanist Defense of Genetic Engineering.J. Hughes - 1996 - Eubios Journal of Asian and International Bioethics 6 (4):94-101.
    This paper sets out to defend human genetic engineering with a new bioethical approach, post-humanism, combined with a radical democratic political framework. Arguments for the restriction of human genetic engineering, and specifically germ-line enhancement, are reviewed. Arguments are divided into those which are fundamental matters of faith, or "bio-Luddite" arguments, and those which can be addressed through public policy, or "gene-angst" arguments.The four bio-Luddite concerns addressed are: Medicine Makes People Sick; There are Sacred Limits of the (...)
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  9. Getting a Rise Out of Genetic Engineering.Massimo Pigliucci - 2013 - In John Huss (ed.), Planet of the Apes and Philosophy: Great Apes Think Alike. Open Court.
    What makes humans different from other animals, what humans are entitled to do to other species, whether time travel is possible, what limits should be placed on science and technology, the morality and practicality of genetic engineering—these are just some of the philosophical problems raised by Planet of the Apes. Planet of the Apes and Philosophy looks at all the deeper issues involved in the Planet of the Apes stories. It covers the entire franchise, from Pierre Boulle’s 1963 (...)
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  10. Procreative Beneficence and Genetic Enhancement.Walter Veit - 2018 - Kriterion - Journal of Philosophy 32 (1):75-92.
    Imagine a world where everyone is healthy, intelligent, long living and happy. Intuitively this seems wonderful albeit unrealistic. However, recent scienti c breakthroughs in genetic engineering, namely CRISPR/Cas bring the question into public discourse, how the genetic enhancement of humans should be evaluated morally. In 2001, when preimplantation genetic diagnosis (PGD) and in vitro fertilisation (IVF), enabled parents to select between multiple embryos, Julian Savulescu introduced the principle of procreative bene cence (PPB), stating that parents have (...)
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  11. Genealogy, Evaluation, and Engineering.Matthieu Queloz - 2022 - The Monist 105 (4):435-451.
    Against those who identify genealogy with reductive genealogical debunking or deny it any evaluative and action-guiding significance, I argue for the following three claims: that although genealogies, true to their Enlightenment origins, tend to trace the higher to the lower, they need not reduce the higher to the lower, but can elucidate the relation between them and put us in a position to think more realistically about both relata; that if we think of genealogy’s normative significance in terms of a (...)
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  12. Genetically Modifying Livestock for Improved Welfare: A Path Forward.Adam Shriver & Emilie McConnachie - 2018 - Journal of Agricultural and Environmental Ethics 31 (2):161-180.
    In recent years, humans’ ability to selectively modify genes has increased dramatically as a result of the development of new, more efficient, and easier genetic modification technology. In this paper, we argue in favor of using this technology to improve the welfare of agricultural animals. We first argue that using animals genetically modified for improved welfare is preferable to the current status quo. Nevertheless, the strongest argument against pursuing gene editing for welfare is that there are alternative approaches to (...)
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  13. Risk Assessment of Genetically Modified Food and Neoliberalism: An Argument for Democratizing the Regulatory Review Protocol of the Food and Drug Administration.Zahra Meghani - 2014 - Journal of Agricultural and Environmental Ethics 27 (6):967–989.
    The primary responsibility of the US Food and Drug Administration is to protect public health by ensuring the safety of the food supply. To that end, it sometimes conducts risk assessments of novel food products, such as genetically modified food. The FDA describes its regulatory review of GM food as a purely scientific activity, untainted by any normative considerations. This paper provides evidence that the regulatory agency is not justified in making that claim. It is argued that the FDA’s policy (...)
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  14. Artificial and Natural Genetic Information Processing.Guenther Witzany - 2017 - In Mark Burgin & Wolfgang Hofkirchner (eds.), Information Studies and the Quest for Transdisciplinarity. Singapore: World Scientific. pp. 523-547.
    Conventional methods of genetic engineering and more recent genome editing techniques focus on identifying genetic target sequences for manipulation. This is a result of historical concept of the gene which was also the main assumption of the ENCODE project designed to identify all functional elements in the human genome sequence. However, the theoretical core concept changed dramatically. The old concept of genetic sequences which can be assembled and manipulated like molecular bricks has problems in explaining the (...)
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  15. Human Genetic Technology, Eugenics, and Social Justice.W. Malcolm Byrnes - 2001 - The National Catholic Bioethics Quarterly 1 (4):555-581.
    In this new post-genomic age of medicine and biomedical technology, there will be novel approaches to understanding disease, and to finding drugs and cures for diseases. Hundreds of new “disease genes” thought to be the causative agents of various genetic maladies will be identified and added to the list of hundreds of such genes already identified. Based on this knowledge, many new genetic tests will be developed and used in genetic screening programs. Genetic screening is the (...)
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  16. Genetic Modification and Future Generations.David Sackris - 2006 - Macalester Journal of Philosophy 15 (1).
    One of the most difficult issues to sort out morally is our obligation to future generations. Most individuals feel that they do indeed have some kind of obligation, but face difficulty in explaining the exact nature of the obligation. For one, it seems impossible to know the wants and desires of future generations, and furthermore the existence of the persons we are obligated to is entirely dependent upon the choices that we in fact make. In essence, we could shape future (...)
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  17. Genetically Modified Foods: Golden Rice.Kristen Hessler, Ross Whetten, Carol Loopstra, Sharon Shriver, Karen Pesaresi Penner, Robert Zeigler, Jacqueline Fletcher, Melanie Torre & Gary Comstock - 2010 - In Gary Comstock (ed.), Life Science Ethics, 2nd. ed. Dordrecht: Springer. pp. 387-397.
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  18. The Mismeasure of Machine: Synthetic Biology and the Trouble with Engineering Metaphors.Maarten Boudry & Massimo Pigliucci - 2013 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 44 (4):660-668.
    The scientific study of living organisms is permeated by machine and design metaphors. Genes are thought of as the ‘‘blueprint’’ of an organism, organisms are ‘‘reverse engineered’’ to discover their functionality, and living cells are compared to biochemical factories, complete with assembly lines, transport systems, messenger circuits, etc. Although the notion of design is indispensable to think about adaptations, and engineering analogies have considerable heuristic value (e.g., optimality assumptions), we argue they are limited in several important respects. In particular, (...)
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  19.  60
    A Roomful of Robovacs: How to Think About Genetic Programs.Brett Calcott - 2020 - In Sune Hannibal Holm & Maria Serban (eds.), Philosophical Perspectives on the Engineering Approach in Biology: Living Machines?
    The notion of a genetic program has been widely criticized by both biologists and philosophers. But the debate has revolved around a narrow conception of what programs are and how they work, and many criticisms are linked to this same conception. To remedy this, I outline a modern and more apt idea of a program that possesses many of the features critics thought missing from programs. Moving away from over-simplistic conceptions of programs opens the way to a more fruitful (...)
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  20. The Mismeasure of Machine: Synthetic Biology and the Trouble with Engineering Metaphors.Maarten Boudry & Massimo Pigliucci - 2013 - Studies in History and Philosophy of Biological and Biomedical Sciences (4):660-668.
    The scientific study of living organisms is permeated by machine and design metaphors. Genes are thought of as the ‘‘blueprint’’ of an organism, organisms are ‘‘reverse engineered’’ to discover their func- tionality, and living cells are compared to biochemical factories, complete with assembly lines, transport systems, messenger circuits, etc. Although the notion of design is indispensable to think about adapta- tions, and engineering analogies have considerable heuristic value (e.g., optimality assumptions), we argue they are limited in several important respects. (...)
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  21. Metaphysics, Function and the Engineering of Life: The Problem of Vitalism.Charles T. Wolfe, Bohang Chen & Cécilia Bognon-Küss - 2018 - Kairos 20 (1):113-140.
    Vitalism was long viewed as the most grotesque view in biological theory: appeals to a mysterious life-force, Romantic insistence on the autonomy of life, or worse, a metaphysics of an entirely living universe. In the early twentieth century, attempts were made to present a revised, lighter version that was not weighted down by revisionary metaphysics: “organicism”. And mainstream philosophers of science criticized Driesch and Bergson’s “neovitalism” as a too-strong ontological commitment to the existence of certain entities or “forces”, over and (...)
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  22. On Being the Right Size, Revisited: The Problem with Engineering Metaphors in Molecular Biology.Daniel J. Nicholson - 2020 - In Sune Hannibal Holm & Maria Serban (eds.), Philosophical Perspectives on the Engineering Approach in Biology: Living Machines? London, UK: pp. 40-68.
    In 1926, Haldane published an essay titled 'On Being the Right Size' in which he argued that the structure, function, and behavior of an organism are strongly conditioned by the physical forces that exert the greatest impact at the scale at which it exists. This chapter puts Haldane’s insight to work in the context of contemporary cell and molecular biology. Owing to their minuscule size, cells and molecules are subject to very different forces than macroscopic organisms. In a sense, macroscopic (...)
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  23.  79
    McKibben, Bill. Enough: Staying Human in an Engineered Age. [REVIEW]W. Malcolm Byrnes - 2004 - The National Catholic Bioethics Quarterly 4 (3):639-641.
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  24.  35
    Beyond Human Nature: Human-Racism in the Debate Over Genetic and Nanotechnological Enhancement.James J. Hughes - 2007 - In Nanoscale. New York, NY, USA: pp. 61-70.
    The alleged threats to human nature are at the root of many concerns about the use of nanotechnology to extend human health and capabilities. Bu the concept of human nature is illusory, selectively deployed, and does not impose any ethical constraint on human enhancement. Human nature is not only a meaningless concept, a product of our imperfect human cognition and a relic of the idea of a "soul," but, as it is deployed today against human enhancement technologies, it is also (...)
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  25.  88
    The Ecological Imperative and its Application to Ethical Issues in Human Genetic Technology.W. Malcolm Byrnes - 2003 - Ethics in Science and Environmental Politics 2003:63-65.
    As a species, we are on the cusp of being able to alter that which makes us uniquely human, our genome. Two new genetic technologies, embryo selection and germline engineering, are either in use today or may be developed in the future. Embryo selection acts to alter the human gene pool, reducing genetic diversity, while germline engineering will have the ability to alter directly the genomes of engineered individuals. Our genome has come to be what it (...)
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  26. Genome Informatics: The Role of DNA in Cellular Computations.James A. Shapiro - 2006 - Biological Theory 1 (3):288-301.
    Cells are cognitive entities possessing great computational power. DNA serves as a multivalent information storage medium for these computations at various time scales. Information is stored in sequences, epigenetic modifications, and rapidly changing nucleoprotein complexes. Because DNA must operate through complexes formed with other molecules in the cell, genome functions are inherently interactive and involve two-way communication with various cellular compartments. Both coding sequences and repetitive sequences contribute to the hierarchical systemic organization of the genome. By virtue of nucleoprotein complexes, (...)
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  27. A Look at the Inference Engine Underlying ‘Evolutionary Epistemology’ Accounts of the Production of Heuristics.Philippe Gagnon - 2012 - In Dirk Evers, Antje Jackelén, Michael Fuller & Taede A. Smedes (eds.), Is Religion Natural? Studies in Science and Theology, No. 13. ESSSAT Biennial Yearbook 2011-2012. Martin-Luther-Universität.
    This paper evaluates the claim that it is possible to use nature’s variation in conjunction with retention and selection on the one hand, and the absence of ultimate groundedness of hypotheses generated by the human mind as it knows on the other hand, to discard the ascription of ultimate certainty to the rationality of human conjectures in the cognitive realm. This leads to an evaluation of the further assumption that successful hypotheses with specific applications, in other words heuristics, seem to (...)
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  28. Knocking Out Pain in Livestock: Can Technology Succeed Where Morality has Stalled?Adam Shriver - 2009 - Neuroethics 2 (3):115-124.
    Though the vegetarian movement sparked by Peter Singer’s book Animal Liberation has achieved some success, there is more animal suffering caused today due to factory farming than there was when the book was originally written. In this paper, I argue that there may be a technological solution to the problem of animal suffering in intensive factory farming operations. In particular, I suggest that recent research indicates that we may be very close to, if not already at, the point where we (...)
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  29. Gentechnik: ethische und andere Probleme.Gereon Wolters - 1991 - Ethik Und Sozialwissenschaften 2 (4):626.
    This paper discusses ethical problems of genetic engineering.
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  30. Developing Gamified Instructional Materials in Genetics for Grade 12 STEM.Aaron Funa & Jhonner Ricafort - 2019 - International Journal of Engineering Science and Computing 9 (3):20597-20600.
    As technology advances, the demand for innovative instructional materials also increases. As a result, the Department of Education urges teachers to develop instructional materials. This study was conducted at Bulusan National High School, Bulusan, Sorsogon, Philippines SY 2018-2019 which was aimed to develop gamified instructional materials in genetics that would aid in teaching and learning process of grade 12 STEM students. The developed gamified materials were collectively called the GIM in Genetics which is comprised of two parts; namely, Student’s Portfolio (...)
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  31. Enhancement Technologies and Inequality.Walter Veit - 2018 - Proceedings of the IX Conference of the Spanish Society of Logic, Methodology and Philosophy of Science.
    Recognizing the variety of dystopian science-fiction novels and movies, from Brave New World to Gattaca and more recently Star Trek, on the future of humanity in which eugenic policies are implemented, genetic engineering has been getting a bad reputation for valid but arguably, mostly historical reasons. In this paper, I critically examine the claim from Mehlman & Botkin (1998: ch. 6) that human enhancement will inevitably accentuate existing inequality in a free market and analyze whether prohibition is the (...)
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  32. Why Human "Altered Nuclear Transfer" is Unethical: A Holistic Systems View.W. Malcolm Byrnes - 2005 - The National Catholic Bioethics Quarterly 5 (2):271-279.
    A remarkable event occurred at the December 3, 2004, meeting of the U. S. President’s Council on Bioethics. Council member William Hurlbut, a physician and Consulting Professor in the Program in Human Biology at Stanford University, formally unveiled a proposal that he claimed would solve the ethical problems surrounding the extraction of stem cells from human embryos. The proposal would involve the creation of genetically defective embryos that “never rise to the level of integrated organismal existence essential to be designated (...)
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  33. Partial Trajectory: The Story of the Altered Nuclear Transfer-Oocyte Assisted Reprogramming (ANT-OAR) Proposal.W. Malcolm Byrnes - 2007 - Linacre Quarterly 1 (74):50-59.
    This essay aims to tell the story of the “altered nuclear transfer-oocyte assisted reprogramming,” or ANT-OAR, proposal—from its conception by Professor William Hurlbut of the President’s Council on Bioethics—to its adoption and promotion by a group of conservative, mostly Catholic philosophers, theologians and scientists—to its eventual demise in Congress. It also will give some reflections on how ANT-OAR promotes a genetically deterministic view of the human organism and can lead down a slippery slope into a future in which human cloning (...)
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  34. Synthetic Biology and Biofuels.Catherine Kendig - 2014 - In Paul B. Thompson & David M. Kaplan (eds.), Encyclopedia of Food and Agricultural Ethics. Springer.
    Synthetic biology is a field of research that concentrates on the design, construction, and modification of new biomolecular parts and metabolic pathways using engineering techniques and computational models. By employing knowledge of operational pathways from engineering and mathematics such as circuits, oscillators, and digital logic gates, it uses these to understand, model, rewire, and reprogram biological networks and modules. Standard biological parts with known functions are catalogued in a number of registries (e.g. Massachusetts Institute of Technology Registry of (...)
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  35.  23
    Thoughts on Artificial Intelligence and the Origin of Life Resulting From General Relativity, with Neo-Darwinist Reference to Human Evolution and Mathematical Reference to Cosmology.Rodney Bartlett - manuscript
    When this article was first planned, writing was going to be exclusively about two things - the origin of life and human evolution. But it turned out to be out of the question for the author to restrict himself to these biological and anthropological topics. A proper understanding of them required answering questions like “What is the nature of the universe – the home of life – and how did it originate?”, “How can time travel be removed from fantasy and (...)
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  36. Designing People to Serve.Steve Petersen - 2011 - In Patrick Lin, George Bekey & Keith Abney (eds.), Robot Ethics. MIT Press.
    I argue that, contrary to intuition, it would be both possible and permissible to design people - whether artificial or organic - who by their nature desire to do tasks we find unpleasant.
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  37. Introduction to Ethics: An Open Educational Resource, Collected and Edited by Noah Levin.Noah Levin, Nathan Nobis, David Svolba, Brandon Wooldridge, Kristina Grob, Eduardo Salazar, Benjamin Davies, Jonathan Spelman, Elizabeth Cady Stanton, Kristin Seemuth Whaley, Jan F. Jacko & Prabhpal Singh (eds.) - 2019 - Huntington Beach, California: N.G.E Far Press.
    Collected and edited by Noah Levin -/- Table of Contents: -/- UNIT ONE: INTRODUCTION TO CONTEMPORARY ETHICS: TECHNOLOGY, AFFIRMATIVE ACTION, AND IMMIGRATION 1 The “Trolley Problem” and Self-Driving Cars: Your Car’s Moral Settings (Noah Levin) 2 What is Ethics and What Makes Something a Problem for Morality? (David Svolba) 3 Letter from the Birmingham City Jail (Martin Luther King, Jr) 4 A Defense of Affirmative Action (Noah Levin) 5 The Moral Issues of Immigration (B.M. Wooldridge) 6 The Ethics of our (...)
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  38.  67
    Biotechnology and Naturalness in the Genomics Era: Plotting a Timetable for the Biotechnology Debate. [REVIEW]Hub Zwart - 2009 - Journal of Agricultural and Environmental Ethics 22 (6):505-529.
    Debates on the role of biotechnology in food production are beset with notorious ambiguities. This already applies to the term “biotechnology” itself. Does it refer to the use and modification of living organisms in general, or rather to a specific set of technologies developed quite recently in the form of bioengineering and genetic modification? No less ambiguous are discussions concerning the question to what extent biotechnology must be regarded as “unnatural.” In this article it will be argued that, in (...)
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  39. The Virtues of Limits.David McPherson - 2022 - Oxford, UK: Oxford University Press.
    Human beings seek to transcend limits. This is part of our potential greatness, since it is how we can realize what is best in our humanity. However, the limit-transcending feature of human life is also part of our potential downfall, as it can lead to dehumanization and failure to attain important human goods and to prevent human evils. Exploring the place of limits within a well-lived human life this work develops and defends an original account of limiting virtues, which are (...)
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  40. The Machine Conception of the Organism in Development and Evolution: A Critical Analysis.Daniel J. Nicholson - 2014 - Studies in History and Philosophy of Biological and Biomedical Sciences 48:162-174.
    This article critically examines one of the most prevalent metaphors in modern biology, namely the machine conception of the organism (MCO). Although the fundamental differences between organisms and machines make the MCO an inadequate metaphor for conceptualizing living systems, many biologists and philosophers continue to draw upon the MCO or tacitly accept it as the standard model of the organism. This paper analyses the specific difficulties that arise when the MCO is invoked in the study of development and evolution. In (...)
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  41.  54
    Improve Alignment of Research Policy and Societal Values.Peter Novitzky, Michael J. Bernstein, Vincent Blok, Robert Braun, Tung Tung Chan, Wout Lamers, Anne Loeber, Ingeborg Meijer, Ralf Lindner & Erich Griessler - 2020 - Science 369 (6499):39-41.
    Historically, scientific and engineering expertise has been key in shaping research and innovation policies, with benefits presumed to accrue to society more broadly over time. But there is persistent and growing concern about whether and how ethical and societal values are integrated into R&I policies and governance, as we confront public disbelief in science and political suspicion toward evidence-based policy-making. Erosion of such a social contract with science limits the ability of democratic societies to deal with challenges presented by (...)
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  42. Cognitive Enhancement and the Threat of Inequality.Walter Veit - 2018 - Journal of Cognitive Enhancement 2 (4):1-7.
    As scientific progress approaches the point where significant human enhancements could become reality, debates arise whether such technologies should be made available. This paper evaluates the widespread concern that human enhancements will inevitably accentuate existing inequality and analyzes whether prohibition is the optimal public policy to avoid this outcome. Beyond these empirical questions, this paper considers whether the inequality objection is a sound argument against the set of enhancements most threatening to equality, i.e., cognitive enhancements. In doing so, I shall (...)
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  43. Nietzsche's Naturalist Morality of Breeding: A Critique of Eugenics as Taming.Donovan Miyasaki - 2014 - In Vanessa Lemm (ed.), Nietzsche and the Becoming of Life. Fordham University Press. pp. 194-213.
    In this paper, I directly oppose Nietzsche ’s endorsement of a morality of breeding to all forms of comparative, positive eugenics: the use of genetic selection to introduce positive improvement in individuals or the species, based on negatively or comparatively defined traits. I begin by explaining Nietzsche ’s contrast between two broad categories of morality: breeding and taming. I argue that the ethical dangers of positive eugenics are grounded in their status as forms of taming, which preserves positively evaluated (...)
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  44. Functions and Mental Representation: The Theoretical Role of Representations and its Real Nature.Miguel Sebastián - 2017 - Phenomenology and the Cognitive Sciences 16 (2):317-336.
    Representations are not only used in our folk-psychological explanations of behaviour, but are also fruitfully postulated, for example, in cognitive science. The mainstream view in cognitive science maintains that our mind is a representational system. This popular view requires an understanding of the nature of the entities they are postulating. Teleosemantic theories face this challenge, unpacking the normativity in the relation of representation by appealing to the teleological function of the representing state. It has been argued that, if intentionality is (...)
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  45. The Ethics of Robot Servitude.Stephen Petersen - 2007 - Journal of Experimental and Theoretical Artificial Intelligence 19 (1):43-54.
    Assume we could someday create artificial creatures with intelligence comparable to our own. Could it be ethical use them as unpaid labor? There is very little philosophical literature on this topic, but the consensus so far has been that such robot servitude would merely be a new form of slavery. Against this consensus I defend the permissibility of robot servitude, and in particular the controversial case of designing robots so that they want to serve human ends. A typical objection to (...)
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  46. How to Play the “Playing God” Card.Moti Mizrahi - 2020 - Science and Engineering Ethics 26 (3):1445-1461.
    When the phrase “playing God” is used in debates concerning the use of new technologies, such as cloning or genetic engineering, it is usually interpreted as a warning not to interfere with God’s creation or nature. I think that this interpretation of “playing God” arguments as a call to non-interference with nature is too narrow. In this paper, I propose an alternative interpretation of “playing God” arguments. Taking an argumentation theory approach, I provide an argumentation scheme and accompanying (...)
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  47. Teilhard de Chardin and Transhumanism.Eric Steinhart - 2008 - Journal of Evolution and Technology 20 (1):1-22.
    Teilhard is among the first to seriously explore the future of human evolution. He advocates both bio-technologies (e.g. genetic engineering) and intelligence technologies. He discusses the emergence of a global computation - communication system (and is said by some to have been the first to have envisioned the Internet). He advocates the development of a global society. He is almost surely the first to discuss the acceleration of technological progress to a Singularity in which human intelligence will become (...)
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  48. Habermas and the Question of Bioethics.Hille Haker - 2019 - European Journal for Philosophy of Religion 11 (4):61-86.
    In The Future of Human Nature, Jürgen Habermas raises the question of whether the embryonic genetic diagnosis and genetic modification threatens the foundations of the species ethics that underlies current understandings of morality. While morality, in the normative sense, is based on moral interactions enabling communicative action, justification, and reciprocal respect, the reification involved in the new technologies may preclude individuals to uphold a sense of the undisposability of human life and the inviolability of human beings that is (...)
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  49. Designing Babies: Morally Permissible Ways to Modify the Human Genome1.Nicholas Agar - 1995 - Bioethics 9 (1):1-15.
    My focus in this paper is the question of the moral acceptability of attempts to modify the human genome. Much of the debate in this area has revolved around the distinction between supposedly therapeutic modification on the one hand, and eugenic modification on the other. In the first part of the paper I reject some recent arguments against genetic engineering. In the second part I seek to distinguish between permissible and impermissible forms of intervention in such a way (...)
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  50. Resisting the Temptation of Perfection.Joseph Tham - 2017 - The National Catholic Bioethics Quarterly 17 (1):51-62.
    With the advance of CRISPR technology, parents will be tempted to create superior offspring who are healthier, smarter, and stronger. In addition to the fact that many of these procedures are considered immoral for Catholics, they could change human nature in radical and possibly disastrous ways. This article focuses on the question of human perfectionism. First, by considering the relationship between human nature and technology, it analyzes whether such advances can improve human nature in addition to curing diseases. Next, it (...)
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