Haynes Lab: Difference between revisions
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Our group uses synthetic, systems, and quantitative biology to engineer useful gene and protein-based biological devices and to deepen our understanding of molecular cell biology. We operate biological devices primarily in human/ mammalian cells. Accelerating the pace of therapeutic technologies (such as tissue regeneration and customizable protein-based drugs) via modular design is the grand challenge that shapes our research plans. | Our group uses synthetic, systems, and quantitative biology to engineer useful gene and protein-based biological devices and to deepen our understanding of molecular cell biology. We operate biological devices primarily in human/ mammalian cells. Accelerating the pace of therapeutic technologies (such as tissue regeneration and customizable protein-based drugs) via modular design is the grand challenge that shapes our research plans. | ||
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CURRENT PROJECTS<br> | CURRENT PROJECTS<br> | ||
* '''Synthetic chromatin for human cell differentiation''' - Behzad Damadzadeh | * '''Synthetic chromatin for human cell differentiation''' - Behzad Damadzadeh |
Revision as of 17:19, 21 September 2013
Our group uses synthetic, systems, and quantitative biology to engineer useful gene and protein-based biological devices and to deepen our understanding of molecular cell biology. We operate biological devices primarily in human/ mammalian cells. Accelerating the pace of therapeutic technologies (such as tissue regeneration and customizable protein-based drugs) via modular design is the grand challenge that shapes our research plans.
CURRENT PROJECTS
- Synthetic chromatin for human cell differentiation - Behzad Damadzadeh
- Microbial communication with synthetic quorum sensing - Rene Davis
- Engineering epigenetic transcription factors - Brady Laughlin (FURI)
- Protein-DNA fusions in living microbes - Ryan Muller (SOLUR)
- Synthetic chromatin and UV-damage - Brendan Fries
Lab Notebooks