Smolke: Difference between revisions
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The Smolke Lab is interested in using a combination of interdisciplinary approaches encompassing biomolecular engineering, biochemical engineering, and synthetic biology with a strong foundation in molecular biology, biochemistry, and chemical biology to study complex gene regulatory networks and develop sophisticated gene expression technologies. Our laboratory is part of the [http://cheme.che.caltech.edu/ Chemical Engineering Department] at [http://www.caltech.edu/ California Institute of Technology], although due to the interdisciplinary nature of our research focus we are cross-listed in the [http://www.its.caltech.edu/~biochem/ Biochemistry and Molecular Biophysics], [http://www.be.caltech.edu/ Bioengineering], and [http://chemistry.caltech.edu/ Chemistry Departments]. A major focus of the lab is studying the bioactive properties of RNA and engineering RNA, and other bioactive molecules, into modular functional technology platforms for applications in metabolic engineering and circuit design, as well as medical applications focused on the molecular mechanisms of cancer and disease and developing effective therapies and treatments. | |||
Revision as of 10:08, 27 July 2006
The Smolke Lab is interested in using a combination of interdisciplinary approaches encompassing biomolecular engineering, biochemical engineering, and synthetic biology with a strong foundation in molecular biology, biochemistry, and chemical biology to study complex gene regulatory networks and develop sophisticated gene expression technologies. Our laboratory is part of the Chemical Engineering Department at California Institute of Technology, although due to the interdisciplinary nature of our research focus we are cross-listed in the Biochemistry and Molecular Biophysics, Bioengineering, and Chemistry Departments. A major focus of the lab is studying the bioactive properties of RNA and engineering RNA, and other bioactive molecules, into modular functional technology platforms for applications in metabolic engineering and circuit design, as well as medical applications focused on the molecular mechanisms of cancer and disease and developing effective therapies and treatments.
