User:Despaux: Difference between revisions
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My research concerns nucleic acids as adaptive gene regulatory elements in mammalian cells. These molecules are able to detect changes in the cellular environment, e.g. cancerous or infected, and act accordingly. Previously I've worked on human genetic evolution, drug delivery, tissue engineering, novel nucleic acids, and macromolecular transport across nuclear pores. | My research concerns nucleic acids as adaptive gene regulatory elements in mammalian cells. These molecules are able to detect changes in the cellular environment, e.g. cancerous or infected, and act accordingly. Previously I've worked on human genetic evolution, drug delivery, tissue engineering, novel nucleic acids, and macromolecular transport across nuclear pores. | ||
====Publications==== | ====Publications==== | ||
# “Controlled assembly of dendrimer like DNA”, Y. Li, Y.D. Tseng, S.Y. Kwon, L. d'Espaux, J.S. Bunch, P.L McEuen, and D. Luo, Nature Materials 3, 38-42, (January, 2004) | # “Controlled assembly of dendrimer like DNA”, Y. Li, Y.D. Tseng, S.Y. Kwon, L. d'Espaux, J.S. Bunch, P.L McEuen, and D. Luo, Nature Materials 3, 38-42, (January, 2004) | ||
# “Honeycomb-shaped DNA”, L. d’Espaux, and D. Luo, Proceedings of the 18th Annual Cornell Undergraduate Research Board Forum, 69 (March, 2002) | # “Honeycomb-shaped DNA”, L. d’Espaux, and D. Luo, Proceedings of the 18th Annual Cornell Undergraduate Research Board Forum, 69 (March, 2002) | ||
Revision as of 18:41, 31 July 2006
Leo d'Espaux
Graduate Student
Chemical Engineering, MC 210-41
California Institute of Technology
Pasadena, CA 91125-4100
626.395.2753.lab
626.568.8743.fax
despaux@caltech.edu
Education
Ph.D. Student, Chemical Engineering, Caltech , 2005-present
B.S., Chemical Engineering, Cornell , 2005
Research
My research concerns nucleic acids as adaptive gene regulatory elements in mammalian cells. These molecules are able to detect changes in the cellular environment, e.g. cancerous or infected, and act accordingly. Previously I've worked on human genetic evolution, drug delivery, tissue engineering, novel nucleic acids, and macromolecular transport across nuclear pores.
Publications
- “Controlled assembly of dendrimer like DNA”, Y. Li, Y.D. Tseng, S.Y. Kwon, L. d'Espaux, J.S. Bunch, P.L McEuen, and D. Luo, Nature Materials 3, 38-42, (January, 2004)
- “Honeycomb-shaped DNA”, L. d’Espaux, and D. Luo, Proceedings of the 18th Annual Cornell Undergraduate Research Board Forum, 69 (March, 2002)
