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  1. Friedrich Miescher’s Discovery in the Historiography of Genetics: From Contamination to Confusion, from Nuclein to DNA.Sophie Juliane Veigl, Oren Harman & Ehud Lamm - 2020 - Journal of the History of Biology 53 (3):451-484.
    In 1869, Johann Friedrich Miescher discovered a new substance in the nucleus of living cells. The substance, which he called nuclein, is now known as DNA, yet both Miescher’s name and his theoretical ideas about nuclein are all but forgotten. This paper traces the trajectory of Miescher’s reception in the historiography of genetics. To his critics, Miescher was a “contaminator,” whose preparations were impure. Modern historians portrayed him as a “confuser,” whose misunderstandings delayed the development of molecular biology. Each of (...)
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  • Handbook of Evolutionary Thinking in the Sciences.Thomas Heams, Philippe Huneman, Guillaume Lecointre & Marc Silberstein (eds.) - 2014 - Springer.
    The Darwinian theory of evolution is itself evolving and this book presents the details of the core of modern Darwinism and its latest developmental directions. The authors present current scientific work addressing theoretical problems and challenges in four sections, beginning with the concepts of evolution theory, its processes of variation, heredity, selection, adaptation and function, and its patterns of character, species, descent and life. The second part of this book scrutinizes Darwinism in the philosophy of science and its usefulness in (...)
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  • Is the Cell Really a Machine?Daniel J. Nicholson - 2019 - Journal of Theoretical Biology 477:108–126.
    It has become customary to conceptualize the living cell as an intricate piece of machinery, different to a man-made machine only in terms of its superior complexity. This familiar understanding grounds the conviction that a cell's organization can be explained reductionistically, as well as the idea that its molecular pathways can be construed as deterministic circuits. The machine conception of the cell owes a great deal of its success to the methods traditionally used in molecular biology. However, the recent introduction (...)
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  • Can artificial parthenogenesis sidestep ethical pitfalls in human therapeutic cloning? An historical perspective.H. Fangerau - 2005 - Journal of Medical Ethics 31 (12):733-735.
    The aim of regenerative medicine is to reconstruct tissue that has been lost or pathologically altered. Therapeutic cloning seems to offer a method of achieving this aim; however, the ethical debate surrounding human therapeutic cloning is highly controversial. Artificial parthenogenesis—obtaining embryos from unfertilised eggs—seems to offer a way to sidestep these ethical pitfalls. Jacques Loeb , the founding father of artificial parthogenesis, faced negative public opinion when he published his research in 1899. His research, the public’s response to his findings, (...)
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  • The Renaissance of Synthetic Biology.Juli Peretó & Jesús Català - 2007 - Biological Theory 2 (2):128-130.
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  • The proximate/ultimate distinction in the multiple careers of Ernst Mayr.John Beatty - 1994 - Biology and Philosophy 9 (3):333-356.
    Ernst Mayr''s distinction between ultimate and proximate causes is justly considered a major contribution to philosophy of biology. But how did Mayr come to this philosophical distinction, and what role did it play in his earlier scientific work? I address these issues by dividing Mayr''s work into three careers or phases: 1) Mayr the naturalist/researcher, 2) Mayr the representative of and spokesman for evolutionary biology and systematics, and more recently 3) Mayr the historian and philosopher of biology. If we want (...)
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  • Creating life and the media: translations and echoes.Manuel Porcar & Juli Peretó - 2018 - Life Sciences, Society and Policy 14 (1):1-14.
    Synthetic biology is the engineering view on biotechnology that ultimately aims at fulfilling the quest of building an artificial cell. From the very first attempts of synthesizing life, this subject has made an impact on the media through, very often, misleading headlines and news. We review here the historical journalistic approach on synthetic biology and related disciplines, from the early twentieth century to the lastest achievements on designing protocells or genome reduction. However, it would be very naive to consider the (...)
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  • Pragmaticism.Charles S. Peirce - 2024 - De Gruyter.
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  • The Background to Otto Warburg's Conception of the "Atmungsferment".Robert E. Kohler - 1973 - Journal of the History of Biology 6 (2):171 - 192.
    In the 1930s Warburg's spare prose and disciplined respect for the facts set the style for a new generation of biochemists who had not known the conceptual revolutions of earlier years. Led by Warburg, they rejected the excesses of the colloid school and the false starts of the teens and twenties. Talk of active structure virtually disappeared as chemists began to identify enzymes, coenzymes, vitamins, and hormones. In the gradual transformation of the Atmungsferment from an ironcolloid complex to a specific (...)
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  • The background to Otto Warburg's conception of the Atmungsferment.Robert E. Kohler - 1973 - Journal of the History of Biology 6 (2):171-192.
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