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The iGEM Jamboree at MIT

The iGEM Jamboree at MIT. iGEM 2004 5 teams. iGEM 2005 13 teams. Princeton Oklahoma ETH Zurich MIT Caltech Toronto Cambridge Texas Penn State Berkeley Davidson Harvard UCSF. iGEM 2005 13 teams.

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The iGEM Jamboree at MIT

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  1. The iGEM Jamboree at MIT

  2. iGEM 2004 5 teams

  3. iGEM 2005 13 teams Princeton Oklahoma ETH Zurich MIT Caltech Toronto Cambridge Texas Penn State Berkeley Davidson Harvard UCSF

  4. iGEM 2005 13 teams Princeton Oklahoma ETH Zurich MIT Caltech Toronto Cambridge Texas Penn State Berkeley Davidson Harvard UCSF

  5. iGEM 2006 32 teams

  6. Putting the “i” in iGEM

  7. 2007 54 teams

  8. 2008 84 teams

  9. 2009 112 teams

  10. 2010 128 teams

  11. Chemistry Biology Mathematics Computer Science

  12. How is synthetic biology well-suited for interdisciplinary research? Creativity Flexibility Adaptability If you have a common interest, you can find a synthetic biology way to approach it! Environment Energy Medicine Technology

  13. Synthetic Biology Project Examples http://2010.igem.org/Main_Page

  14. highGEM Greenfield Central High School, Greenfield, IN Rebecca Schinii rschini@gcsc.k12.in.us

  15. Ethics/ Human Practice

  16. Construct Version Synthetic biology uses molecular methods to construct DNA-based devices to perform novel functions. Synthetic biologists design, model, and construct biological parts, devices and systems by engineering and modifying existing biological systems. For instance, synthetic biologists can produce microbes that make useful chemicals. Synthetic biology gives scientists the tools to build biological devices from smaller biological units in much the same way as an engineer constructs a building from smaller construction materials. Synthetic biology has the potential to develop technologies that could lead the way in the 21st century.

  17. Create Version Synthetic biology uses molecular methods to create modified living organisms that have never existed before. These DNA-based devices perform new functions not found in nature. Synthetic biologists redesign and modify existing, natural biological systems. For instance, synthetic biologists can create new versions of microbes that make chemicals not naturally found in microbes. In many ways, synthetic biology allows scientists to redesign biological processes and create organisms not found in nature. Synthetic biology has the potential to develop technologies that could lead the way in the 21st century.

  18. Ethics and Word Choice

  19. Ethics and Word Choice

  20. Energy

  21. 2008 Project by Harvard iGEM Team http://2008.igem.org/Team:Harvard

  22. Shewanella oneidensis MR-1

  23. Four 2009 iGEM Projects

  24. http://2009.igem.org/Team:HKU-HKBU

  25. http://2009.igem.org/Team:HKU-HKBU/Assembly#Step_6._Using_the_Speed_Controllerhttp://2009.igem.org/Team:HKU-HKBU/Assembly#Step_6._Using_the_Speed_Controller

  26. http://2009.igem.org/Team:HKU-HKBU/Assembly#Step_6._Using_the_Speed_Controllerhttp://2009.igem.org/Team:HKU-HKBU/Assembly#Step_6._Using_the_Speed_Controller

  27. Environment

  28. Edinburgh iGEM 2006 Awards: Best Real World Application, Best Poster

  29. Poison Water • Arsenic poisoning affects 100 million people • Serious in Bangladesh • Wells tap sedimentary layer with Arsenic • 1 in 4 wells contaminated • Testing methods expensive, require instruments and expertise

  30. Range of Outputs • If no arsenic is present: Urease raises the pH to 9-10 • If 5 ppb arsenic is present: Repressor shuts down Urease, pH remains neutral, pH 7 • If 20 ppb arsenic is present: LacZ produced, pH 4.5

  31. Technology

  32. http://parts.mit.edu/igem07/index.php/Peking

  33. Toggle Switch

  34. Toggle Switch NOR Logic Gate

  35. Toggle Switch

  36. Explore the 2010 iGEM Wiki Google search iGEM 2010 (first hit) http://2010.igem.org/Main_Page

  37. Go explore!!

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