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Tales of Emergence—Synthetic Biology as a Scientific Community in the Making

Published online by Cambridge University Press:  01 September 2009

Susan Molyneux-Hodgson
Affiliation:
Department of Sociological Studies, University of Sheffield, Elmfield, Northumberland Road, Sheffield, S10 2TU, UK E-mail: s.hodgson@sheffield.ac.uk
Morgan Meyer
Affiliation:
CSI—Centre de Sociologie de l’Innovation, MINES ParisTech, 60 Boulevard Saint Michel, 75006 Paris, France E-mail: morgan.meyer@mines-paristech.fr
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Abstract

This article locates the beginnings of a synthetic biology network and thereby probes the formation of a potential disciplinary community. We consider the ways that ideas of community are mobilized, both by scientists and policy-makers in building an agenda for new forms of knowledge work, and by social scientists as an analytical device to understand new formations for knowledge production. As participants in, and analysts of, a network in synthetic biology, we describe our current understanding of synthetic biology by telling four tales of community making. The first tale tells of the mobilization of synthetic biology within a European context. The second tale describes the approach to synthetic biology community formation in the UK. The third narrates the creation of an institutionally based, funded ‘network in synthetic biology’. The final tale de-localizes community-making efforts by focussing on ‘devices’ that make communities. In tying together these tales, our analysis suggests that the potential community can be understood in terms of ‘movements’—the (re)orientation and enrolment of people, stories, disciplines and policies; and of ‘stickiness’—the objects and glues that begin to bind together the various constitutive elements of community.

Type
Articles
Copyright
Copyright © London School of Economics and Political Science 2009

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References

Andler, D., Barthelme, S., Beckert, B., Blumel, C., Coenen, C., Fleischer, T.et al. (2007). ‘Converging technologies’ and the social sciences and humanities—An analysis of critical issues and a suggestion for a future research agenda. Final Report. Fraunhofer Institute for Systems and Innovation, Unpublished.Google Scholar
Anonymous (2008). Beyond the genome: The challenge of synthetic biology. BioSocieties, 3(1), 320.CrossRefGoogle Scholar
Balmer, A., & Herreman, C. (2009). Craig Venter and the re-programming of life: How metaphors shape and perform ethical discourses in the media presentation of synthetic biology. In Nerlich, B.Elliott, R., & Larson, B. (Eds), Communicating biological sciences: Ethical and metaphorical dimensions, 219–234. London: Ashgate.Google Scholar
Balmer, A., & Martin, P. (2008). Synthetic biology: Social and ethical challenges. Institute for Science and Society, University of Nottingham.Google Scholar
BBSRC (2007). Synthetic biology workshop. Report of a workshop at Alexandra House, Wroughton, Wiltshire, 8–9 February, unpublished.Google Scholar
BBSRC (2008a) Synthetic Biology Networks launch document. URL (accessed April 2009): http://www.bbsrc.ac.uk/publications/corporate/synthetic_biology.pdfGoogle Scholar
BBSRC (2008b). New projects to raise UK profile in Synthetic Biology, press release, 29 May, URL (accessed October 2008): http://www.bbsrc.ac.uk/media/releases/2008/080529_synthetic_biology.htmlGoogle Scholar
Becker, H. (1986). Doing things together: Selected papers. Evanston, IL: Northwestern UP.Google Scholar
Benner, S.A., & Sismour, A.M. (2005). Synthetic biology. Nature Review Genetics, 6, July, 533543.Google Scholar
Brown, N. (2003). Hope against hype: Accountability in biopasts, presents and futures. Science Studies, 16(2), 321.Google Scholar
Callon, M. (1986). Some elements of a sociology of translation: Domestication of the scallops and the fishermen of Saint Brieuc Bay. In Law, J. (Ed.), Power, action and belief: A new sociology of knowledge, 196–233. London: Routledge.Google Scholar
Calvert, J. (2008). The commodification of emergence: Systems biology, synthetic biology and intellectual property. BioSocieties, 3, 383398.CrossRefGoogle Scholar
Calvert, J., & Martin, P. (2009). The role of social scientists in synthetic biology. EMBO Reports, 10, 201204.CrossRefGoogle ScholarPubMed
Coenen, C. (2008). Konvergierende Technologien und Wissenschaften. Der Stand der Debatte und politischen Aktivitaeten zu ‘Converging Technologies’. Hintergrundpapier Nr. 16. Berlin: TAB.Google Scholar
Collins, H.M. (2006). Conferences as knowledge makers. Paper presented at the 4S conference ‘Silence, Suffering and Survival’, Vancouver, 1–5 November.Google Scholar
Collins, H.M., & Evans, R.J. (2007). Rethinking expertise. Chicago: U Chicago Press.CrossRefGoogle Scholar
Collins, P., & Pontikakis, D. (2006). Innovation systems in the European periphery: The policy approaches of Ireland and Greece. Science and Public Policy, 33, 757769.CrossRefGoogle Scholar
Conway, J.F. (1992). Physics and the rise of scientific research in Canada by Yves Gingras. Canadian Journal of Sociology, 17, 224226.Google Scholar
Dubois, M. (1999). Introduction à la sociologie des sciences et des connaissances scientifiques. Paris: Presses Universitaires de France.Google Scholar
Dupre, J. (1993). The disorder of things: Metaphysical foundations of the disunity of science. Cambridge, MA: Harvard UP.Google Scholar
Endy, D. (2005). Foundations for engineering biology. Nature, 438, 24 November, 449453.Google Scholar
European Communities (2005) Synthetic biology: Applying engineering to biology. Report of a NEST high-level expert group. Luxembourg: European Communities.Google Scholar
Felt, U. (1993). Fabricating scientific success stories. Public Understanding of Science, 2, 375390.CrossRefGoogle Scholar
Fujimura, J.H. (2000). Transnational genomics in Japan: Transgressing the boundary between the ‘modern/West’ and the ‘pre-modern/East’. In Reid, R., & Traweek, S. (Eds), Cultural Studies of Science, Technology, and Medicine, 71–92. New York: Routledge.Google Scholar
Galison, P.L., & Stump, D.J. (1996). The disunity of science: Boundaries, contexts, and power. Palo Alto, CA: Stanford UP.Google Scholar
Gingras, Y. (1991). Physics and the rise of scientific research in Canada, trans. P. Keating. Montreal: McGill-Queen’s UP.CrossRefGoogle Scholar
Greener, M. (2008). Is the grass greener on the other side? Encouraging the development of synthetic biology in Europe. EMBO Reports, 9, 835837.CrossRefGoogle ScholarPubMed
Hacking, I. (1983). Representing and intervening—Introductory topics in the philosophy of natural science. Cambridge: Cambridge UP.CrossRefGoogle Scholar
Hedgecoe, A.M. (2003). Terminology and the construction of scientific disciplines: The case of pharmacogenomics. Science, Technology & Human Values, 28, 513537.CrossRefGoogle Scholar
Hetherington, K. (1997). In place of geometry: The materiality of place. In Hetherington, K., & Munro, R. (Eds), Ideas of difference: Social spaces and the labour of division, 183–199. Oxford: Blackwell.Google Scholar
Hodgson, S.M. (2006). Narrating community: History and absence in scientific texts. Interdisciplinary Science Reviews, 31, 175188.Google Scholar
Hodgson, S.M., & Irving, Z. (2007). Policy and its exploration. In Hodgson, S., & Irving, Z. (Eds.), Policy reconsidered: Meanings, politics and practices, 1–18, Bristol: Policy Press.Google Scholar
Knorr-Cetina, K. (1999). Epistemic cultures: How the sciences make knowledge. Cambridge, MA: Harvard UP.CrossRefGoogle Scholar
Lamb, R., & Davidson, E. (2005). Information and communication technology challenges to scientific professional identity. The Information Society, 21, 124.CrossRefGoogle Scholar
Latour, B. (1987). Science in action: How to follow scientists and engineers through society. Cambridge, MA: Harvard UP.Google Scholar
Latour, B. (2004). Politics of nature: How to bring the sciences into democracy. Cambridge, MA: Harvard UP.Google Scholar
Lave, J., & Wenger, E. (1991). Situated learning: Legitimate peripheral participation. Cambridge: Cambridge UP.CrossRefGoogle Scholar
Law, J. (1986). On the methods of long distance control: Vessels, navigation and the Portuguese route to India. In Law, J. (Ed.), Power, action and belief: A new sociology of knowledge, 234–263. London: Routledge & Kegan Paul.Google Scholar
Lentzos, F., Bennett, G., Boeke, J., Endy, D., & Rabinow, P. (2008). Visions and challenges in redesigning life. BioSocieties, 3, 311323.Google Scholar
M.A. (multiple authors) (2007). Unpublished network proposal to BBSRC.Google Scholar
Marcus, G.E. (1998). Ethnography through thick and thin. Princeton: Princeton UP.Google Scholar
Meyer, M. (2008). On the boundaries and partial connections between amateurs and professionals. Museum and Society, 6, 3853.Google Scholar
Meyer, M. (2007). Increasing the frame: Interdisciplinarity, transdisciplinarity and representativity. Interdisciplinary Science Reviews, 32, 203212.CrossRefGoogle Scholar
Mody, C.M. (2006). Corporations, universities, and instrumental communities: Commercializing probe microscopy, 1981–1996. Technology and Culture, 47, 5680.Google Scholar
Molyneux-Hodgson, S., & Facer, K. (2003). The textbook as cultural artefact: Reproducing the culture of science. In Sutherland, R., Claxton, G., & Pollard, A. (Eds.), Learning and teaching: Where worldviews meet, 153–74. Stoke: Trentham.Google Scholar
O'Malley, M.A., Powell, A., Davies, J.F., & Calvert, J. (2007) Knowledge-making distinctions in synthetic biology, BioEssays, 30(19): 5765.Google Scholar
Pickering, A. (Ed.) (1992). Science as practice and culture. London: U Chicago Press.CrossRefGoogle Scholar
Pinch, T., & Bijker, W. (1992). The social construction of facts and artifacts: or, How the sociology of science and the sociology of technology might benefit each other. In Bijker, W., & Law, J. (Eds.), Shaping technology/building society, 17–50. Cambridge, MA: MIT Press.Google Scholar
Pottage, A. (2006). Too much ownership: Bio-prospecting in the age of synthetic biology. BioSocieties, 1, 137158.Google Scholar
Roco, M.C., & Bainbridge, W.S. (Eds.) (2003). Converging technologies for improving human performance: Nanotechnology, biotechnology, information technology and cognitive science. Dordrecht: Kluwer Academic Press.CrossRefGoogle Scholar
Royal Society (2007) Call for views: Synthetic biology, June. URL (accessed May 2009): http://royalsociety.org/downloaddoc.asp?id=4297Google Scholar
Simpson, B., & Carroll, B. (2008). Re-viewing ‘role’ in processes of identity construction. Organization, 15, 2950.Google Scholar
Vinck, D. (1999). Les objets intermédiaires dans les réseaux de coopération scientifique. Contribution à la prise en compte des objets dans les dynamiques sociales. Revue française de sociologie, 40, 385414.Google Scholar
Wenger, E. (2000). Communities of practice and social learning systems. Organization, 7, 225246.Google Scholar