Swartz:Research: Difference between revisions
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We are in the departments of Bioengineering and Chemical Engineering at Stanford University. Our research has two broad thrusts: producing hydrogen sustainably with biology, and developing virus-like particle technology for medical applications. | |||
Our lab has extensive expertise in several technologies that enable these projects: metabolic engineering, cell-free protein synthesis, bioconjugations, and protein evolution. We also do more fundamental research to improve and expand the scope of these technologies. | |||
[[/Biohydrogen|Biohydrogen]] | |||
*Biohydrogen from engineered cyanobacteria | |||
*[ | *Biohydrogen from cellulosic biomass through engineered cell free extracts | ||
*Engineering and Maturation of [FeFe] Hydrogenase from ''Clostridium Pasteurium'' | |||
[[/VLPs|Virus Like Particles]] | |||
*VLPs as vaccine scaffolds | |||
*VLPs for use as a drug delivery vehicle (including screening capabilities) | |||
*VLPs for use in medical imaging/diagnostics | |||
Past research projects: | |||
*Protein Engineering (EGFR evolution) | |||
*Improving cell-free protein synthesis through emulsions | |||
*Non-natural amino acid incorporation | |||
[[Swartz:Protocols|Protocols]] | |||
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Revision as of 10:36, 29 September 2014
| Research | Papers | People | Contact |
We are in the departments of Bioengineering and Chemical Engineering at Stanford University. Our research has two broad thrusts: producing hydrogen sustainably with biology, and developing virus-like particle technology for medical applications.
Our lab has extensive expertise in several technologies that enable these projects: metabolic engineering, cell-free protein synthesis, bioconjugations, and protein evolution. We also do more fundamental research to improve and expand the scope of these technologies.
- Biohydrogen from engineered cyanobacteria
- Biohydrogen from cellulosic biomass through engineered cell free extracts
- Engineering and Maturation of [FeFe] Hydrogenase from Clostridium Pasteurium
- VLPs as vaccine scaffolds
- VLPs for use as a drug delivery vehicle (including screening capabilities)
- VLPs for use in medical imaging/diagnostics
Past research projects:
- Protein Engineering (EGFR evolution)
- Improving cell-free protein synthesis through emulsions
- Non-natural amino acid incorporation
<html> <embed src="http://www.mendeley.com/groups/1207461/_/widget/1/3/" frameborder="0" allowTransparency="true" style="width:260px;height:550px;"> <p style="width:260px"><a href="http://www.mendeley.com/groups/1207461/cell-free-protein-synthesis/" title="Cell-free protein synthesis on Mendeley">Cell-free protein synthesis</a> is a group in <a href="http://www.mendeley.com/groups/biological-sciences/" title="Biological Sciences on Mendeley">Biological Sciences</a> on <a href="http://www.mendeley.com/" title="Mendeley">Mendeley</a>.</p> </html>
