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Reflections on the historiography of molecular biology

Horace Freeland Judson

Minerva 18 (3):369-421 (1980)

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(1 other version)The Laboratory Technology of Discrete Molecular Separation: The Historical Development of Gel Electrophoresis and the Material Epistemology of Biomolecular Science, 1945–1970.Howard Hsueh-Hao Chiang - 2009 - Journal of the History of Biology 42 (3):495-527.details Preparative and analytical methods developed by separation scientists have played an important role in the history of molecular biology. One such early method is gel electrophoresis, a technique that uses various types of gel as its supporting medium to separate charged molecules based on size and other properties. Historians of science, however, have only recently begun to pay closer attention to this material epistemological dimension of biomolecular science. This paper substantiates the historiographical thread that explores the relationship between modern laboratory (...) Download Export citation Bookmark 9 citations
(1 other version)The Laboratory Technology of Discrete Molecular Separation: The Historical Development of Gel Electrophoresis and the Material Epistemology of Biomolecular Science, 1945–1970.Howard Hsueh-Hao Chiang - 2009 - Journal of the History of Biology 42 (3):495-527.details Preparative and analytical methods developed by separation scientists have played an important role in the history of molecular biology. One such early method is gel electrophoresis, a technique that uses various types of gel as its supporting medium to separate charged molecules based on size and other properties. Historians of science, however, have only recently begun to pay closer attention to this material epistemological dimension of biomolecular science. This paper substantiates the historiographical thread that explores the relationship between modern laboratory (...) Download Export citation Bookmark 11 citations
(1 other version)Paradigm change in evolutionary microbiology.Maureen A. O’Malley & Yan Boucher - 2005 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 36 (1):183-208.details Thomas Kuhn had little to say about scientific change in biological science, and biologists are ambivalent about how applicable his framework is for their disciplines. We apply Kuhn’s account of paradigm change to evolutionary microbiology, where key Darwinian tenets are being challenged by two decades of findings from molecular phylogenetics. The chief culprit is lateral gene transfer, which undermines the role of vertical descent and the representation of evolutionary history as a tree of life. To assess Kuhn’s relevance to this (...) Download Export citation Bookmark 15 citations
A World in One Dimension: Linus Pauling, Francis Crick and the Central Dogma of Molecular Biology.Bruno J. Strasser - 2006 - History and Philosophy of the Life Sciences 28 (4):491 - 512.details In 1957, Francis Crick outlined a startling vision of life in which the great diversity of forms and shapes of macromolecules was encoded in the one-dimensional sequence of nucleic acids. This paper situates Crick's new vision in the debates of the 1950s about protein synthesis and gene action. After exploring the reception of Crick's ideas, it shows how they differed radically from a different model of protein synthesis which enjoyed wide currency in that decade. In this alternative model, advocated by (...) Download Export citation Bookmark 8 citations
(1 other version)William Astbury and the biological significance of nucleic acids, 1938–1951.Kersten Hall - 2011 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 42 (2):119-128.details Download Export citation Bookmark
(1 other version)William Astbury and the biological significance of nucleic acids, 1938–1951.Kersten Hall - 2011 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 42 (2):119-128.details Famously, James Watson credited the discovery of the double-helical structure of DNA in 1953 to an X-ray diffraction photograph taken by Rosalind Franklin. Historians of molecular biology have long puzzled over a remarkably similar photograph taken two years earlier by the physicist and pioneer of protein structure William T. Astbury. They have suggested that Astbury’s failure to capitalize on the photograph to solve DNA’s structure was due either to his being too much of a physicist, with too little interest in (...) Download Export citation Bookmark 3 citations
(1 other version)Paradigm change in evolutionary microbiology.Maureen A. O’Malley & Yan Boucher - 2005 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 36 (1):183-208.details Download Export citation Bookmark 7 citations
Scientific revolutions, specialization and the discovery of the structure of DNA: toward a new picture of the development of the sciences.Politi Vincenzo - 2018 - Synthese 195 (5):2267-2293.details In his late years, Thomas Kuhn became interested in the process of scientific specialization, which does not seem to possess the destructive element that is characteristic of scientific revolutions. It therefore makes sense to investigate whether and how Kuhn’s insights about specialization are consistent with, and actually fit, his model of scientific progress through revolutions. In this paper, I argue that the transition toward a new specialty corresponds to a revolutionary change for the group of scientists involved in such a (...) Download Export citation Bookmark 8 citations
(1 other version)In search of the best explanation about the nature of the Gene: Avery on pneumococcal transformation.Eleonora Cresto - 2008 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 39 (1):65-79.details In this paper I present a model of rational belief change, and I show how to use it to obtain a better insight into the debate about the nature of pneumococcal transformation, genes and DNA that took place in the forties, as a result of Oswald T. Avery’s work. The model offers a particular elaboration of the concept of inference to the best explanation, along decision theoretic lines. Within this framework, I distinguish different senses in which Avery’s team can be (...) Download Export citation Bookmark 1 citation
(1 other version)In search of the best explanation about the nature of the gene: Avery on pneumococcal transformation.Eleonora Cresto - 2008 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 39 (1):65-79.details Download Export citation Bookmark 2 citations
'Changing theDenkstil'–A Case Study in the History of Molecular Genetics.Karl Peter Ohly - 2002 - Science & Education 11 (2):155-167.details Download Export citation Bookmark 1 citation
After the Double Helix.Angela N. H. Creager & Gregory J. Morgan - 2008 - Isis 99 (2):239-272.details ABSTRACT Rosalind Franklin is best known for her informative X-ray diffraction patterns of DNA that provided vital clues for James Watson and Francis Crick's double-stranded helical model. Her scientific career did not end when she left the DNA work at King's College, however. In 1953 Franklin moved to J. D. Bernal's crystallography laboratory at Birkbeck College, where she shifted her focus to the three-dimensional structure of viruses, obtaining diffraction patterns of Tobacco mosaic virus (TMV) of unprecedented detail and clarity. During (...) Download Export citation Bookmark 12 citations

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