Difference between revisions of "Team:BGU Israel"

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                     <td style="text-align: left; border-style: hidden;"><div align="center">Judging</div></td>
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                     <td style="text-align: left; border-style: hidden;"><div align="center">Achievements</div></td>
 
                     <td style="text-align: left; border-style: hidden;"><div align="center">Entrepreneurship</div></td>
 
                     <td style="text-align: left; border-style: hidden;"><div align="center">Entrepreneurship</div></td>
 
                     <td style="text-align: left; border-style: hidden;"><div align="center"> Best Integrated<br /> Human Practices<br /> award</div></td>
 
                     <td style="text-align: left; border-style: hidden;"><div align="center"> Best Integrated<br /> Human Practices<br /> award</div></td>

Revision as of 10:14, 15 September 2015


Team:BGU Israel


Achievements
Entrepreneurship
Best Integrated
Human Practices
award
Best Education
and Public
Outreach award
Photos

Cancer – what is the problem?

Despite the huge investment in research and the development of a variety of treatment methods, cancer is still a major cause of death in the world.
Today, both surgical and pharmacological treatments against most types of cancer are not accurate enough to identify and treat the disease on a cellular level. On the other hand, novel biological treatments being developed were only found effective for a relatively small number of patients.
In cancer, many cellular and molecular processes take place, enabling the tumor to develop and spread in the body.
We believe that it is possible to take advantage of the many typical biological mechanisms of cancer cells, by developing a synthetic biology-based system for identifying and treating cancer on a cellular level. Together as a team, we developed a modular system which identifies numerous genetic changes in cancer cells and responds by activating a synthetic machine that executes a cell suicide program or enables color-based "tagging" of the cells for tumor detection, ensuring complete surgical removal.