Team:USTC-China/Project/application/Discussion

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Project

Parts

Team

Wetlab

HumanPractice

Overview     Module     Results     Modeling     Application

Members     Advisors      Sponsors     Chinameetup      HongKong

Protocol      Notebook     Gallary

Overview     Safety Proposal     Group

Conclusion and Discussion

    Comparing with the control, the reprogrammed bacteria actually can destroy the target bacteria as the design requires and basically decrease the range of motion of the target bacteria.

    By measuring the range of motion of the control and the target bacteria dealed with the reprogrammed bacteria from different tubes(tube1, tube2, tube3, tube4), we get histogram below.

Wmm().jpg

Figure13.

    Figure13 shows that the capability of eliminating the target bacteria grows with the number of bacteria with red fluorescen decreases. This result reveal a fact that the properties of the reprogrammed bacteria mainly depend on the random fluctuation of the expression of the Toggle Switch Device.This fact also explain the differences between the form of the colony1 from tube2(Figure10 left) and the colony1 from tube3(Figure12 left)

References

Timothy S. Gardner, Charles R. Cantor, James J. Collins (2000) Construction of a Genetic toggle switch in Escherichia coli. Nature, 403,339-342

Shana Topp, Justin P. Gallivan (2006) Guiding Bacteria with Small Molecules and RNA. J.Am.Chem.Soc, 129,6870-6811

Chunbo Lou, Xili Liu, Ming Ni.etc (2010) Synthesizing a novel genetic sequential logic circuit: a push-on push-off switch. Molecular Systems Biology, 6:350

Joy Sinha, Samuel J Reyes, Justin P Gallivan (2010) Reprogramming bacteria to seek and destroy an herbicide. Nature Chemical Biology, 6,464-470

Steven L. Porter, George H. Wadhams, Judith P. Armitage (2011) Signal processing in complex chemotaxis pathways. Nature Reviews Microbiology, 9,153-165

Warren C. Ruder, Ting Lu, James J. Collins (2011) Synthetic Biology Moving into the Clinic. Science,333,1248-1252

Nazanin Saeidi, Choon Kit Wong, Tat-Ming Lo .etc (2011) Engineering microbes to sense and eradicate Pseudomonas aeruginosa, a human pathogen. Molecular Systems Biology,7:251