Team:Peking/DataPage/JudgingCriteria
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5. We improved a previous part, which is the combination of Salicylic acid inducible promoter pSal and its transcriptional regulator NahR: <a href="http://parts.igem.org/Part:BBa_J61051">Bba_J61051</a> The improved part is <a href="http://parts.igem.org/Part:Bba_K1031610">Bba_K1031610</a> | 5. We improved a previous part, which is the combination of Salicylic acid inducible promoter pSal and its transcriptional regulator NahR: <a href="http://parts.igem.org/Part:BBa_J61051">Bba_J61051</a> The improved part is <a href="http://parts.igem.org/Part:Bba_K1031610">Bba_K1031610</a> | ||
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- | + | 6. We did aromatic biosensor mining using bioinformatical approach.(for more detail: <a href="/Team:Peking/Project/SensorMining">Click Here</a>) | |
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7. We successfully implemented cell-cell communication using bioluminescence for the very first time in synthetic biology! Here. | 7. We successfully implemented cell-cell communication using bioluminescence for the very first time in synthetic biology! Here. |
Revision as of 09:52, 25 September 2013
Data Page
Introduction
A regular reporter (for example, fluorescent proteins or pigment) can only detect a narrow range of concentration of input signals, (Figure 1) because they mainly possess a Hill-function type dose-response curve. The linear proportion of such a dose-response curve is relatively narrow,causing it sensitive to only a narrow range of input intensity. Thus the regular reporters are not proper devices for quantitative measurement. In order to design a quantitative, economical and convenient aromatics detector, we decided to build a band pass filter.
Achievements
We are very proud of our many achievements from this summer. Here is a compilation of our feats! 1. We collaborated with a lab and helped 5 other iGEM teams by sharing DNA materials, characterizing their parts and modeling! (for more details Click Here) 2. We outlined in detail a new approach of human pratice called "Model iGEM". It's a small jamboree for several frequently communicating teams. (for more details Click Here) 3. We presented all fresh iGEMers with a collection and praise of historic iGEM projects to share and learn from each other! (for more details Click Here) 4. We submitted 45 high quality and well-characterized standard biobricks! (for more details Click Here) 5. We improved a previous part, which is the combination of Salicylic acid inducible promoter pSal and its transcriptional regulator NahR: Bba_J61051 The improved part is Bba_K1031610 6. We did aromatic biosensor mining using bioinformatical approach.(for more detail: Click Here) 7. We successfully implemented cell-cell communication using bioluminescence for the very first time in synthetic biology! Here. Therefore, we believe that we deserve a Gold Medal Prize.