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  1. (1 other version)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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  • (1 other version)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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  • Physicochemical Biology and Knowledge Transfer: The Study of the Mechanism of Photosynthesis Between the Two World Wars.Kärin Nickelsen - 2022 - Journal of the History of Biology 55 (2):349-377.
    In the first decades of the twentieth century, the process of photosynthesis was still a mystery: Plant scientists were able to measure what entered and left a plant, but little was known about the intermediate biochemical and biophysical processes that took place. This state of affairs started to change between the two world wars, when a number of young scientists in Europe and the United States, all of whom identified with the methods and goals of physicochemical biology, selected photosynthesis as (...)
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  • The organism strikes back: Chlorella algae and their impact on photosynthesis research, 1920s–1960s.Kärin Nickelsen - 2017 - History and Philosophy of the Life Sciences 39 (2).
    Historians and philosophers of twentieth-century life sciences have demonstrated that the choice of experimental organism can profoundly influence research fields, in ways that sometimes undermined the scientists’ original intentions. The present paper aims to enrich and broaden the scope of this literature by analysing the career of unicellular green algae of the genus Chlorella. They were introduced for the study of photosynthesis in 1919 by the German cell physiologist Otto H. Warburg, and they became the favourite research objects in this (...)
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