Haynes:LitReviewNov2013: Difference between revisions
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==Journal of Biological Engineering== | ==Journal of Biological Engineering== | ||
# (2013) '''Hidden hysteresis – population dynamics can obscure gene network dynamics.''' Phillip Poisson and Kaustubh D Bhalerao Journal. 7:16. [http://www.jbioleng.org/content/7/1/16 Link]. <br>''' | # (2013) '''Hidden hysteresis – population dynamics can obscure gene network dynamics.''' Phillip Poisson and Kaustubh D Bhalerao Journal of Biological Engineering . 7:16. [http://www.jbioleng.org/content/7/1/16 Link]. <br>'''They use a bistable gene network in E-coli to show that the cells concentration will affect the hysteresis and change the steady state level of gene expression. Higher cell concentration show higher hysteresis due to positive feedback loop effects. This research shows that cell concentration should be considered in designing the synthetic gene circuit for long term application. ''' | ||
==Journal of Cell Biology== | ==Journal of Cell Biology== | ||
Revision as of 18:04, 10 November 2013
Fall 2013, 11/11/13
Use the following text format EXACTLY as it is shown below...
- (year) Title. Author One, Author Two, and Author Three et al. Journal. Volume:pages. Link.
Summary: Very short explanation of why this paper is relevant/ interesting. - (2011) Engineering a Photoactivated Caspase-7 for Rapid Induction of Apoptosis. Evan Mills, Xi Chen, Elizabeth Pham, Stanley Wong, and Kevin Truong et al. ACS Synthetic Biology 2012 1.3:75-82. Link.
Summary: A group from University of Toronto developed a protein that causes rapid apotosis (cell death) of targeted cells.
Open edit mode and copy the example list above. Do not erase the <br><br> tags. Do not use keyboard line returns to space out the numbered list, or else each item will start with the number 1.
ACS Synthetic Biology
Cell
Frontiers in Microbiotechnology
Journal of Biological Engineering
- (2013) Hidden hysteresis – population dynamics can obscure gene network dynamics. Phillip Poisson and Kaustubh D Bhalerao Journal of Biological Engineering . 7:16. Link.
They use a bistable gene network in E-coli to show that the cells concentration will affect the hysteresis and change the steady state level of gene expression. Higher cell concentration show higher hysteresis due to positive feedback loop effects. This research shows that cell concentration should be considered in designing the synthetic gene circuit for long term application.
Journal of Cell Biology
Molecular Biology of the Cell
Molecular and Cellular Biology
Nature
Nature Biotechnology
Nature Methods
Nature Molecular Systems Biology
Public Library of Science Biology (PLoS Biology)
Proceedings of the National Academy of Sciences (PNAS)
Science
