Roberts: Difference between revisions

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== '''Welcome to the Roberts Lab!''' ==
== '''Welcome to the Roberts Lab!''' ==


The Roberts group, headed by [[User:Susan C. Roberts|Susan C. Roberts]], focuses on cellular and metabolic engineering in both mammalian and plant cell cultures. In our approach, we exploit metabolic pathways through characterization techniques and redirection of metabolism to optimize cellular processes for a variety of applications.  
The Roberts group, headed by [[User:Susan C. Roberts|Susan C. Roberts]], focuses on cellular and metabolic engineering in both mammalian and plant cell cultures. In our approach, we exploit metabolic pathways through characterization techniques and redirection of metabolism to optimize cellular processes for a variety of applications. <br/>
 
[[Image:RobertsGroupPhoto.png|center|500px]]<br/>
'''Research is focused in two main areas:'''<br>
'''Research is focused in two main areas:'''<br>
*Development and optimization of plant cell culture processes for the supply of valuable plant-derived chemicals through the study of        cellular aggregation and the development and application of both metabolic engineering approaches and flow cytometric methodologies.<br>
*Development and optimization of plant cell culture processes for the supply of valuable plant-derived chemicals through the study of        cellular aggregation and the development and application of both metabolic engineering approaches and flow cytometric methodologies.<br>

Revision as of 06:22, 11 October 2011


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Welcome to the Roberts Lab!

The Roberts group, headed by Susan C. Roberts, focuses on cellular and metabolic engineering in both mammalian and plant cell cultures. In our approach, we exploit metabolic pathways through characterization techniques and redirection of metabolism to optimize cellular processes for a variety of applications.


Research is focused in two main areas:

  • Development and optimization of plant cell culture processes for the supply of valuable plant-derived chemicals through the study of cellular aggregation and the development and application of both metabolic engineering approaches and flow cytometric methodologies.
  • Design and utilization of 3-dimensional mammalian cell in vitro systems to explore the roles of oxygen tension and mechanical properties of biomaterials on cell functionality.

Researchers in our laboratory come from various disciplines with backgrounds in chemical engineering, bioengineering, molecular and cellular biology, and plant biology.

We acknowledge our funding sources


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