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Team:SCUT/Data page/Achievements
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4.We induced the odr-10 receptor by ligand diacetyl successfully and also activate the downstream pathway.<br><br> | 4.We induced the odr-10 receptor by ligand diacetyl successfully and also activate the downstream pathway.<br><br> | ||
5.We have improved a biobrick <a href="http://parts.igem.org/Part:BBa_K1072022" class="brick">BBa_K1072022</a>, and produced signal molecular.<br><br> | 5.We have improved a biobrick <a href="http://parts.igem.org/Part:BBa_K1072022" class="brick">BBa_K1072022</a>, and produced signal molecular.<br><br> | ||
| - | 6.We have cooperated with 11 bioengineering class to arrange a Bio-model Competition.<a href="https://2013.igem.org/Team:SCUT/Human_Practice/IGEM_everywhere" class="brick">Learn more ›››</a><br><br> | + | 6.We have cooperated with 11 bioengineering class to arrange a Bio-model Competition.<a href="https://2013.igem.org/Team:SCUT/Human_Practice/IGEM_everywhere" class="brick"> Learn more ›››</a><br><br> |
7.We mimicked deterministic and stochastic simulations of pathway model of odorant signal transport.<br><br> | 7.We mimicked deterministic and stochastic simulations of pathway model of odorant signal transport.<br><br> | ||
Revision as of 20:38, 27 September 2013
1.We helped SYSU construct the original hbax and characterize the part BBa_K1061006 by comparing its growth-inhibiting effect with the original hbax in yeast.
2.We constructed 22 biobricks in which 15 parts have worked, including 8 new biobricks and submitted 12 high quality and well-characterized standard biobricks. Learn more ›››
3.We constructed two improved biobrick, BBa_K1072017 and BBa_K1072018 and successfully localized the odr-10 into membrane of yeast.
4.We induced the odr-10 receptor by ligand diacetyl successfully and also activate the downstream pathway.
5.We have improved a biobrick BBa_K1072022, and produced signal molecular.
6.We have cooperated with 11 bioengineering class to arrange a Bio-model Competition. Learn more ›››
7.We mimicked deterministic and stochastic simulations of pathway model of odorant signal transport.
So, we believe that we deserve a Gold Medal Prize.
