Scott Gilbert is the Howard A. Schneiderman Professor of Biology (emeritus) at Swarthmore College and a Finland Distinguished Professor (emeritus) at the University of Helsinki.
Gilbert is the author of the textbook Developmental Biology (first edition, 1985, and now in its 13th edition, 2023) and has also co-authored (with David Epel) the textbook Ecological Developmental Biology (2009, 2015). He has been credited with helping initiate evolutionary developmental biology and ecological developmental biology as new biological disciplines.[3][4][5][6]
Gilbert's early biological research includes documenting the first pyrimidine-initiated RNA transcripts,[7] elucidating the mechanisms by which antibodies inactivate poliovirus,[8] and studying the roles of paracrine factors in kidney and lung branching.[9][10] After co-authoring an early paper in evolutionary developmental biology,[11] he inaugurated a project on the development of turtle shells. With collaborator Judith Cebra-Thomas, Gilbert elucidated the roles of several paracrine factors involved in carapace formation and made the unexpected conclusion that the plastron was derived from trunk neural crest cells. The latter studies led to the hypothesis that the turtle evolved by respecifying its cell types.[12][13] His most recent studies concern the development of the holobiont and the importance of plasticity and symbiotic microbes during normal animal development.[14][15] He has argued that the holobiont is an important unit of evolutionary selection.[16]
Gilbert's research in the history and philosophy of biology concerns the interactions of genetics and embryology; feminist critiques of biology; Antireductionism; the formation of biological disciplines; and Bioethics. Some of these studies have documented the origins of the gene theory from embryological controversies,[17][18] the formation of molecular biology and biochemistry as separate disciplines,[19] the importance of feminist critique as a normative control in cell and developmental biology,[20][21] and the importance of the environment in phenotype production.[22][23][24] His work in the interactions of biology and religion have included extensive analysis of wonder,[25] as well as studies of when different groups of biologists claim that individual human life begins.[26] He has identified (with Ziony Zevit) the bone from which Eve was generated,[27] analyzed embryonic imagery in the art of Gustav Klimt, Diego Rivera, and Frida Kahlo,[28] and has provided one of the first analyses of nerd humor.[29] His biology textbooks have been experiments in the interactions between biology and its social critiques.
Personal life
Scott F. Gilbert is the son of Marvin (Bud) and Elaine Caplan Gilbert. He was raised in East Rockaway, New York, .[30] He is married to Anne Raunio (m.1971), and has three children and two grandchildren. In 2015, Gilbert became emeritus professor at both Swarthmore College and the University of Helsinki, and in 2016 he moved with Anne to Portland, Oregon, where he is on the Asian Arts Council of the Portland Art Museum.
Gilbert, Scott F., Tyler, Anna L., & Zackin, Emily J. (2005). Bioethics and the New Embryology: Springboards for Debate. Sunderland, MA: Sinauer Associates. ISBN0716773457.{{cite book}}: CS1 maint: multiple names: authors list (link)
Gilbert, Scott F. & Epel, David (2015). Ecological Developmental Biology: The Environmental Regulation of Development, Health, and Evolution. Sunderland, MA: Sinauer Associates. ISBN9781605353449.
Lala, K., Uller, T., Feiner, N., Feldman, M., Gilbert, S.F. (2024). Evolution Evolving: The Developmental Origins of Adaptation and Biodiversity. Princeton University Press, Princeton. ISBN9780691262413
^Gilbert S. F. 2009. Bio. Evolution and Development 11: 331 – 332.
^Gilbert S. F. 2009. Bio. Evolution and Development 11: 331 – 332.
^Mikhailov, A. T. and Gilbert S. F. 2005. Putting evo-devo into focus: An interview with Scott F. Gilbert. International Journal of Developmental Biology 48: 9 – 16.
^Gilbert, S. F. 2001. Ecological developmental biology: Developmental biology meets the real world. Developmental Biology 233: 1 - 12.
^Duschek, J. It's the ecology, stupid. Nature 418: 578 - 579.
^Wake, M., Development in the real world. Reviewed Work: Ecological Developmental Biology: Integrating Epigenetics, Medicine, and Evolution by Scott F. Gilbert, David Epel. Amer. Sci. 98(1): 75-78.
^Gilbert, S. F., Boer, H. A. de, and Nomura, M. 1979. Identification of initiation sites for the in vitro transcription of rRNA operons rrnE and rrnA in Escherichia coli.Cell 17: 211-224.
^Icenogle, J., Shiwen, H., Duke, G., Gilbert, S. F., Rueckert, R., and Anderegg, J. 1983. Neutralization of poliovirus by a monoclonal antibody: Kinetics and stoichiometry. Virology 127: 412 - 425.
^Cebra-Thomas, J. A., Bromer, J., Gardner, R., Lam, G. K., Scheipe, H., and Gilbert, S. F. 2003. T-box gene products are required for mesenchymal induction of epithelial branching in the embryonic mouse lung. Developmental Dynamics226: 82 - 90.
^Ritvos, O., Tuuri, T., Erämaa, M., Sainio, K., Hilden, K., Saxén, L., and Gilbert, S. F. 1995. Activin disrupts epithelial branching morphogenesis in developing murine kidney, pancreas, and salivary gland. Mechanisms of Development 50: 229 - 245.
^Gilbert, S. F., Opitz, J., and Raff, R. A. 1996. Resynthesizing evolutionary and developmental biology. Developmental Biology 173: 357 - 372.
^Gilbert, S. F., Cebra-Thomas, J. A., and Burke, A. C. (2007). How the turtle gets its shell. In Biology of Turtles (J. Wyneken, M. H. Gofrey, and V. Bels, eds.). CRC Press, Boca Raton. Pp. 1- 16.
^Cebra-Thomas, J. A., Betters, E., Yin, M., Plafkin, C., McDow, K., and Gilbert, S. F. 2007. A late-emerging population of trunk neural crest cells forms the plastron in the turtle Trachemys scripta. Evolution and Development 9: 267 – 277.
^Gilbert, S.F., Sapp. J., and Tauber, A. I. 2012. A symbiotic view of life: We have never been individuals. Quarterly Review of Biology 87: 325 – 341.
^Gilbert, Scott F; Bosch, Thomas C. G; Ledón-Rettig, Cristina. (2015). "Eco-Evo-Devo: developmental symbiosis and developmental plasticity as evolutionary agents". Nature Reviews Genetics 16: 611–622.
^Roughgarden, J., Gilbert, S. F., Rosenberg, E., Zilber-Rosenberg, I, and Lloyd, E. A. 2017. Holobionts as units of selection and a model of their population dynamics and evolution. Biological Theory 13: 44-65.
^Gilbert, S. F. 1978. The embryological origins of the gene theory. J. Hist. Biol. 11: 307-351.
^Gilbert, S. F. 1988. Cellular Politics: Just, Goldschmidt, and the attempts to reconcile embryology and genetics, In The American Development of Biology (ed. R. Rainger, K. Benson, J. Maienschein) University of Pennsylvania Press, Philadelphia. pp. 311-346.
^Gilbert, S. F. 1982. Intellectual traditions in the life sciences: Molecular biology and biochemistry. Perspec. Biol. Med. 26: 151-162.
^Beldecos, A., Bailly, S., Gilbert, S., Hicks, K., Kenschaft, L., Niemczyk, N., Rosenberg, R., Schaertel, S., and Wedel, A. 1988. The importance of feminist critique for contemporary cell biology. Hypatia 3: 61-76.
^Gilbert, S. F. and Howes-Mischel 2004. "Show Me Your Original Face before You Were Born": The Convergence of Public Fetuses and Sacred DNA. History and Philosophy of the Life Sciences 26: 377 – 394.
^Gilbert, S. F. 2001. Ecological developmental biology: Developmental biology meets the real world. Developmental Biology 233: 1 - 12.
^Gilbert, S. F. 2012. Ecological developmental biology: Environmental signals for normal animal development. Evolution and Development 14: 20 – 28.
^Gilbert, S. F. 2002. Genetic determinism: The battle between scientific data and social image in contemporary developmental biology. In On Human Nature. Anthropological, Biological, and Philosophical Foundations. (Grunwald, A., Gutmann, M., and Neumann-Held, E. M., eds.) Springer-Verlag, NY. Pp. 121 - 140.
^Gilbert, S. F. 2013. Wonder and the necessary alliances of science and religion. Euresis Journal 4: 7-30.
^Gilbert, S. F. 2008. When "personhood" begins in the embryo: avoiding a syllabus of errors. Birth Defects Res C Embryo Today 84: 164 - 173.
^Gilbert, S. F. and Zevit, Z. 2001. Congenital human baculum deficiency: The generative bone of Genesis 2: 21-23. American Journal of Medical Genetics 101: 284 - 285.
^Gilbert. S. F. and Braukmann, S. 2011. Fertilization narratives in the art of Gustav Klimt, Diego Rivera, and Frida Kahlo: Repression, Domination, and Eros among cells. Leonardo 44: 221 – 227.
^Gilbert, S. F. 1985. Bacchus in the laboratory: In defense of scientific puns. Perspec. Biol. Med. 29: 148-152.
^Gilbert S. F. 2009. Bio. Evolution and Development 11: 331 – 332.