Christina Smolke
From Infogalactic: the planetary knowledge core
Christina Smolke is an American synthetic biologist whose primary research is in the use of yeast to produce opioids for medical use.[1] She is Associate Professor of Bioengineering and of Chemical Engineering at Stanford University.[2]
Biology research
Smolke and her laboratory team at Stanford University have pioneered work into the creation of a synthetic enzyme that converts reticuline, a key element of opioids.[3][4] The process adds five genes from two different organisms to the yeast cells. Three of these genes come from the poppy, and the others from a bacterium that lives on poppy plant stalks. They produced the first narcotic using synthetic biology.[5][6]
Awards
- World Technology Award in Biotechnology (Individual), World Technology Network (2009)
- Alfred P. Sloan Foundation Fellow, Alfred P. Sloan Foundation (2008)
- National Science Foundation CAREER Award, National Science Foundation (2006)
- Beckman Young Investigator Award, Arnold and Mabel Beckman Foundation (2005)
- TR100, Top 100 Young Innovators of the World, Technology Review (2004)
Selected publications
- Metabolic Pathway Engineering Handbook (2 volumes), CRC Press. 2009. ISBN 978-0849339233
- Stephanie Galanie1, Kate Thodey2, Isis J. Trenchard2, Maria Filsinger Interrante2, Christina D. Smolke2. Complete biosynthesis of opioids in yeast. Science 4 September 2015: Vol. 349 no. 6252 pp. 1095-1100 DOI: 10.1126/science.aac9373
- Win, Maung Nyan, and Christina D. Smolke. "Higher-order cellular information processing with synthetic RNA devices." Science 322.5900 (2008): 456-460.
- Pfleger, Brian F., et al. "Combinatorial engineering of intergenic regions in operons tunes expression of multiple genes." Nature biotechnology 24.8 (2006): 1027-1032.
- Bayer, Travis S., and Christina D. Smolke. "Programmable ligand-controlled riboregulators of eukaryotic gene expression." Nature biotechnology 23.3 (2005): 337-343.
- Win, Maung Nyan, and Christina D. Smolke. "A modular and extensible RNA-based gene-regulatory platform for engineering cellular function." Proceedings of the National Academy of Sciences 104.36 (2007): 14283-14288.
References
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