Cell free translation in engineered picoliter volume containers

Authors

Piro Siuti, The University of Tennessee, Knoxville
Scott T. Retterer, Oak Ridge National Laboratory
Chang Kyoung Choi, Michigan Technological University
Jason D. Fowlkes, Oak Ridge National Laboratory
Mitchel J. Doktycz, Oak Ridge National Laboratory

Document Type

Conference Proceeding

Publication Date

10-20-2009

Abstract

Engineers seek to use biological design principles to manipulate information and import new functionality to synthetic devices. Such devices inspired by natural systems could, in turn, play a crucial role in allowing biologists to explore the effects of physical transport and extreme conditions of temperature and pH on reaction systems. For example, engineered reaction containers can be physically and chemically defined to control the flux of molecules of different sizes and charge. The design and testing of such a container is described here. It has a volume of 19pL with defined slits of 200nm. The device successfully contained DNA and protein molecules and is evaluated for carrying out cell-free protein synthesis. The effect of DNA concentration and slit size on protein yield is discussed.

Publication Title

2009 1st Annual ORNL Biomedical Science and Engineering Conference, BSEC 2009

Recommended Citation

Siuti, P., Retterer, S., Choi, C., Fowlkes, J., & Doktycz, M. (2009). Cell free translation in engineered picoliter volume containers. 2009 1st Annual ORNL Biomedical Science and Engineering Conference, BSEC 2009. http://doi.org/10.1109/BSEC.2009.5090477
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/10350