Team:Nevada

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      <p class="quote">The goal of our project is to express the genes encoding enzymes for the <b>cinnamaldehyde biosynthetic pathway</b> into ''E. coli'' to produce a eco-friendly mosquitocide. The ultimate goal of this project is to assemble this plant specific pathway in ''E. coli'' in order to cost-effectively produce large quantities of cinnamaldehyde. If successful, cinnamaldehyde could be distributed to developing countries to help limit the spread of mosquito borne diseases. Also, we are in the process of engineering the aquatic plant duckweed to produce large quantities of cinnamaldehyde. Since duckweed grows readily in stagnant water and is fed upon by mosquito larvae, we believe that duckweed could function as an effective vehicle to deliver this eco-friendly insecticide. Using these two approaches we hope to develop cinnamaldehyde as a viable alternative to more toxic or environmentally damaging insecticides.</p>
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      <p class="quote">The goal of our project is to express the genes encoding enzymes for the <b>cinnamaldehyde biosynthetic pathway</b> into ''E. coli'' to produce a eco-friendly mosquitocide. The ultimate goal of this project is to assemble this plant specific pathway in ''E. coli'' in order to cost-effectively produce large quantities of cinnamaldehyde. If successful, cinnamaldehyde could be distributed to developing countries to help limit the spread of mosquito borne diseases. Also, we are in the process of engineering the aquatic plant duckweed to produce large quantities of cinnamaldehyde. Since duckweed grows readily in stagnant water and is fed upon by mosquito larvae, we believe that duckweed could function as an effective vehicle to deliver this eco-friendly insecticide. Using these two approaches we hope to develop cinnamaldehyde as a viable alternative to more toxic or environmentally damaging insecticides.</p>
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== Thanks to Our Sponsors ==
== Thanks to Our Sponsors ==
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Department of Biochemistry and Molecular Biology - University of Nevada, Reno
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*Department of Biochemistry and Molecular Biology - University of Nevada, Reno
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*College of Agriculture, Biotechnology, and Natural Resources - University of Nevada, Reno
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College of Agriculture, Biotechnology, and Natural Resources - University of Nevada, Reno
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*The Associated Students of the University of Nevada (ASUN)
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*Nevada IDeA Network of Biomedical Research Excellence (Nevada INBRE)  
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The Associated Students of the University of Nevada (ASUN)
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*Rutgers University
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*Max Planck Institute
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Nevada IDeA Network of Biomedical Research Excellence (Nevada INBRE)  
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Rutgers University
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Max Planck Institute
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Latest revision as of 04:00, 22 October 2009



Contents

Undergraduate Team

Coaches

Graduate Student

Pathway Nevada.JPG
  • Nick
  • Janice
  • Leigh
  • Chris
  • Joey
  • Tony
  • Katie
  • Tyler
  • Alex
  • Sheena
  • Howard
  • Shintani
  • Ellison
  • Chad

The goal of our project is to express the genes encoding enzymes for the cinnamaldehyde biosynthetic pathway into E. coli to produce a eco-friendly mosquitocide. The ultimate goal of this project is to assemble this plant specific pathway in E. coli in order to cost-effectively produce large quantities of cinnamaldehyde. If successful, cinnamaldehyde could be distributed to developing countries to help limit the spread of mosquito borne diseases. Also, we are in the process of engineering the aquatic plant duckweed to produce large quantities of cinnamaldehyde. Since duckweed grows readily in stagnant water and is fed upon by mosquito larvae, we believe that duckweed could function as an effective vehicle to deliver this eco-friendly insecticide. Using these two approaches we hope to develop cinnamaldehyde as a viable alternative to more toxic or environmentally damaging insecticides.

Thanks to Our Sponsors

  • Department of Biochemistry and Molecular Biology - University of Nevada, Reno
  • College of Agriculture, Biotechnology, and Natural Resources - University of Nevada, Reno
  • The Associated Students of the University of Nevada (ASUN)
  • Nevada IDeA Network of Biomedical Research Excellence (Nevada INBRE)
  • Rutgers University
  • Max Planck Institute