Team:Imperial College London/Drylab/Genome deletion

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Genome Deletion


Based on the genetic circuit, we know that

  • The lambda cI promoter is repressed by the protein cI that is produced constitutively under the strong promoter J23114.
  • At 28°C, functional protein cI will bind to the lambda cI promoter to repress it. Restriction enzymes DpnII and TaqI will not be produced.
  • When there is an increase in temperature (from 28°C to 42°C [http://www.ncbi.nlm.nih.gov/pubmed/15652426?ordinalpos=13&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_DefaultReportPanel.Pubmed_RVDocSum [1]][http://www.ncbi.nlm.nih.gov/pubmed/10235623 [2]]), there will be a de-repression of lambda cI promoter, causing restriction enzymes DpnII and TaqI to be produced.

Contents

Our goals

II09 hitemp lotemp.jpg

We aim to:

  • Explore how temperature correlates to restriction enzyme concentration, and see how it affects the population of live cells, so as to characterise the effects of temperature on cell death.
  • Develop a model of the number of dead cells as this correlates to our live and dead cells assay. (hyperlink to assay). From this, we can monitor the rate of killing and perform data analysis.

  about the model assumptions and predictions!



The system

Summary of Simulation results

Conclusions

References

[1] Jechlinger W, Glocker J, Haidinger W, Matis A, Szostak MP, and Lubitz W. Modulation of gene expression by promoter mutants of the lambdacI857/pRM/pR system. J Biotechnol 2005 Mar 2; 116(1) 11-20. doi:10.1016/j.jbiotec.2004.10.002

[2]Jana NK, Roy S, Bhattacharyya B, and Mandal NC. Amino acid changes in the repressor of bacteriophage lambda due to temperature-sensitive mutations in its cI gene and the structure of a highly temperature-sensitive mutant repressor. Protein Eng 1999 Mar; 12(3) 225-33.

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