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  1. (1 other version)‘Purifying’ Science: E. C. Slater and Postwar Biochemistry in the Netherlands.Ton van Helvoort - 2003 - History of Science 41 (1):1-34.
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  • Purple Matter, Membranes and 'Molecular Pumps' in Rhodopsin Research (1960s–1980s).Mathias Grote - 2013 - Journal of the History of Biology 46 (3):331-368.
    In the context of 1960s research on biological membranes, scientists stumbled upon a curiously coloured material substance, which became called the “purple membrane.” Interactions with the material as well as chemical analyses led to the conclusion that the microbial membrane contained a photoactive molecule similar to rhodopsin, the light receptor of animals’ retinae. Until 1975, the find led to the formation of novel objects in science, and subsequently to the development of a field in the molecular life sciences that comprised (...)
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  • One cognitive style among others. Towards a phenomenology of the lifeworld and of other experiences.Gregor Schiemann - 2014 - In D. Ginev (ed.), The Multidimensionality of Hermeneutic Phenomenology. New York: Springer. pp. 31-48.
    In his pioneering sociological theory, which makes phenomenological concepts fruitful for the social sciences, Alfred Schütz has laid foundations for a characterization of an manifold of distinct domains of experience. My aim here is to further develop this pluralist theory of experience by buttressing and extending the elements of diversity that it includes, and by eliminating or minimizing lingering imbalances among the domains of experience. After a critical discussion of the criterion-catalogue Schütz develops for the purpose of characterizing different cognitive (...)
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  • To Err and Win a Nobel Prize: Paul Boyer, ATP Synthase and the Emergence of Bioenergetics. [REVIEW]Douglas Allchin - 2002 - Journal of the History of Biology 35 (1):149 - 172.
    Paul Boyer shared a Nobel Prize in 1997 for his work on the mechanism of ATP synthase. His earlier work, though (which contributed indirectly to his triumph), included major errors, both experimental and theoretical. Two benchmark cases offer insight into how scientists err and how they deal with error. Boyer's work also parallels and illustrates the emergence of bioenergetics in the second half of the twentieth century, rivaling achievements in evolution and molecular biology.
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  • Current Bibliography of the History of Science and Its Cultural Influences 2002.Stephen P. Weldon - 2002 - Isis 93:1-237.
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  • (1 other version)‘Purifying’ Science: E. C. Slater and Postwar Biochemistry in the Netherlands.Ton van Helvoort - 2003 - History of Science 41 (1):1-34.
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  • Discovery of causal mechanisms: Oxidative phosphorylation and the Calvin–Benson cycle.Raphael Scholl & Kärin Nickelsen - 2015 - History and Philosophy of the Life Sciences 37 (2):180-209.
    We investigate the context of discovery of two significant achievements of twentieth century biochemistry: the chemiosmotic mechanism of oxidative phosphorylation and the dark reaction of photosynthesis. The pursuit of these problems involved discovery strategies such as the transfer, recombination and reversal of previous causal and mechanistic knowledge in biochemistry. We study the operation and scope of these strategies by careful historical analysis, reaching a number of systematic conclusions: even basic strategies can illuminate “hard cases” of scientific discovery that go far (...)
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  • Surfaces of action: cells and membranes in electrochemistry and the life sciences.Mathias Grote - 2010 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 41 (3):183-193.
    The term ‘cell’, in addition to designating fundamental units of life, has also been applied since the nineteenth century to technical apparatuses such as fuel and galvanic cells. This paper shows that such technologies, based on the electrical effects of chemical reactions taking place in containers, had a far-reaching impact on the concept of the biological cell. My argument revolves around the controversy over oxidative phosphorylation in bioenergetics between 1961 and 1977. In this scientific conflict, a two-level mingling of technological (...)
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  • Philosophy of Cell Biology.William Bechtel & Andrew Bollhagen - 2019 - Stanford Encyclopedia of Philosophy.
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