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What Happened to Molecular Biology?

Published online by Cambridge University Press:  01 September 2008

Hans-Jörg Rheinberger
Hans-Jörg Rheinberger
Affiliation:
Department III, Max Planck Institute for the History of Science, Boltzmannstraße 22, 14195 BerlinGermany E-mail: rheinbg@mpiwg-berlin.mpg.de
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Abstract

‘Molecular biology’ emerged in the first half of the twentieth century as a fundamentally novel type of biology. Its coming into being was by no means simply a linear continuation of classical genetics, the biological Leitwissenschaft of the time, and it took much more than new methods and technologies for the new discipline to arise. In this article I outline the development of molecular biology—from its beginnings to its zenith and dissolution as a discipline in its own right—in its historical context and from an epistemological perspective.

Keywords

AssemblageHistoryMolecular Biology
Type
Articles
Information
BioSocieties , Volume 3 , Issue 3 , September 2008 , pp. 303 - 310
Copyright
Copyright © London School of Economics and Political Science 2008

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References

Abir-Am, P. (2002). The Rockefeller Foundation and the rise of molecular biology. Nature Reviews Molecular Cell Biology, 3, 6570.Google Scholar
Abir-Am, P. (1982). The discourse of physical power and biological knowledge in the 1930s: A reappraisal of the Rockefeller Foundation’s ‘policy’ in molecular biology. Social Studies of Science, 12, 341382.Google Scholar
Braudel, F. (1975[1949]). The Mediterranean and the Mediterranean world in the age of Philip II. London: Fontana.Google Scholar
Forman, P. (1997). Recent science: Late modern and post-modern. In: Söderqvist, T. (Ed.), The historiography of contemporary science and technology, 179–213. Amsterdam: Harwood Academic Publishers.Google Scholar
Foucault, M. (1973). The order of things: An archaeology of the human sciences. New York: Vintage.Google Scholar
Holmes, F.L. (1997). Writing about scientists of the near past. In Söderqvist, T. (Ed.), The historiography of contemporary science and technology, 165177. Amsterdam: Harwood Academic Publishers.Google Scholar
Holmes, F.L. (2002). Meselson, Stahl, and the replication of DNA: A history of the most beautiful experiment in biology. New Haven, CT: Yale UP.Google Scholar
Holmes, F.L. (2006). Reconceiving the gene: Seymour Benzer’s adventure in phage genetics. New Haven, CT: Yale UP.Google Scholar
Jacob, F. (1993). The logic of life: A history of heredity. Princeton, NJ: Princeton UP.Google Scholar
Jacob, F. (1970). La logique du vivant : Une histoire de l’hérédité. Paris: Gallimard.Google Scholar
Kohler, R.E. (1991). Partners in science: Foundations and natural scientists 1900–1945. Chicago, IL: U Chicago Press.Google Scholar
Morange, M. (1998). A history of molecular biology. Cambridge, MA: Harvard UP.Google Scholar
Morange, M. (1994). Histoire de la biologie moléculaire. Paris: La Découverte.Google Scholar
Olby, R.C. (1974). The path to the double helix. Seattle, WA: Washington UP.Google Scholar
Rabinow, P. (2004). Anthropologie der Vernunft. Studien zu Wissenschaft und Lebensführung. Frankfurt am Main: Suhrkamp.Google Scholar
Rabinow, P. (2000). Epochs, presents, events. In Lock, M., Young, A., & Cambrosio, A. (Eds), Living and working with the new medical technologies, 31–46. Cambridge, MA: Cambridge UP.Google Scholar
Rheinberger, H.-J. (2000). Beyond nature and culture: Modes of reasoning in the age of molecular biology and medicine. In Lock, M., Young, A., & Cambrosio, A. (Eds),Living and working with the new medical technologies, 19–30. Cambridge, MA: Cambridge UP.Google Scholar
Rheinberger, H.-J. (1997). Conjunctures, hybrids, bifurcations, experimental cultures. In Rheinberger, H.-J., Toward a history of epistemic things: Synthesizing proteins in the test tube, 133–142. Stanford, CA: Stanford UP.Google Scholar
Rockefeller Foundation. (1938). Annual report. New York: Rockefeller Foundation.Google Scholar
Shinn, T., & Joerges, B. (2002). The transverse science and technology culture: Dynamics and roles of research-technology. Social Science Information, 41, 207251.CrossRefGoogle Scholar
Szybalski, W., & Skalka, A. (1978). Editorial: Nobel prizes and restriction enzymes. Gene, 4, 181182.Google Scholar
Vettel, E. (2006). Biotech: The countercultural origins of an industry. Philadelphia, PA: U Pennsylvania Press.Google Scholar