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Team:SCU-China/Transmitter
From 2014.igem.org
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<ul class="nav nav-tabs nav-stacked" data-spy="affix" data-offset-top="125"> | <ul class="nav nav-tabs nav-stacked" data-spy="affix" data-offset-top="125"> | ||
<li ><a href="#Top">Back to top</a></li> | <li ><a href="#Top">Back to top</a></li> | ||
| - | <li ><a href="#1">Week 1 | + | <li ><a href="#1">Week 1</a></li> |
| - | <li ><a href="#2">Week 2 | + | <li ><a href="#2">Week 2</a></li> |
| + | <li ><a href="#3">Week 3</a></li> | ||
| + | <li ><a href="#4">Week 4</a></li> | ||
| + | <li ><a href="#5">Week 5</a></li> | ||
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</ul> </div> | </ul> </div> | ||
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| - | + | <p>Since our team is sorted into 4 groups, our team is focusing on the construction of the Transmitter Cell. The whole work that we should do is to build 2 gene lines which lie in the transmitter cells.</p><p>In detail, we use 9 biobricks supplied by IGEM Competition totally which are RBS (BBa_B0030), DT (BBa_B0015), pLux (BBa_R0062), LuxR (BBa_C0062), LasI (BBa_K081016 and BBa_K081009), CinR (BBa_K0077), RhlR (BBa_C0171), and RhlI (BBa_C0051).</p><h1 id="1" style="padding-top: 80px; | |
| + | margin-top: -45px;">Week 1 7.20-7.26</h1><p>1. We transformed the plasmids (BBa_B0030, BBa_B0015, BBa_R0062, BBa_K081016, BBa_K081009, BBa_K0077, BBa_C0171, BBa_C0051) into DH5α E.Coli to amplify these plasmid</p><p>We extracted the plasmids (mentioned above) and used electrophoresis to test the concentration and quality of our plasmids.</p><p>Results:</p><table class="table table-striped"><thead><tr><td><p>Name</li> | ||
</td><td><p>Concentration (ng/3 μl)</p> | </td><td><p>Concentration (ng/3 μl)</p> | ||
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</tr></tbody> | </tr></tbody> | ||
</table> | </table> | ||
| - | < | + | <p>Note: The different concentrations are from different tubes.</p><h1 id="2" style="padding-top: 80px; |
| + | margin-top: -45px;">Week 2 7.27-8.03</h1><p>1. We transformed the BBa_C0062 and BBa_C0077 plasmids.</p><p>2. We extracted the BBa_J37019, BBa_I9026, BBa_K081005, BBa_I714075, BBa_K93600 and BBa_R0077 plasmids and determined the concentration of them by electrophoresis.</p><p>3. We cleaved the BBa_R0062, BBa_C0051, BBa_K0077 plasmids with EcoR I and Spe I enzyme and BBa_B0015 with Xba I and Pst I. Also, we prepared the pSB1A3 and pSB1K3 backbones with EcoR I and Pst I.</p><p>4. We cleaved the BBa_J37019 (Named E11) and BBa_R0077 (E21) with EcoR I and Spe I, BBa_I9026 (E12), BBa_K081016 (E22) and BBa_C0077 (E24) with Xba I and Pst I.</p><p>5. We linked the E11 and E12 with pSB1A3 (L11), the E21 and E22 with pSB1A3 (L21).</p><p>6. We transformed all the linked parts into E.coli.</p><p>7. We cleaved BBa_B0015 with Xba I and Pst I.</p><p>Results</p><table class="table table-striped"><caption>The concentration of plasmids</caption><thead><tr><td><p>Name</li> | ||
</td><td><p>Concentration (ng/3μl)</p> | </td><td><p>Concentration (ng/3μl)</p> | ||
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</tr></tbody> | </tr></tbody> | ||
</table> | </table> | ||
| - | <li>Note: The different concentrations are from different tubes.</p><p>2. The electrophoresis results are shown in Figure 1.</p><p>Figure 1. The cleaved plasmids</p>< | + | <li>Note: The different concentrations are from different tubes.</p><p>2. The electrophoresis results are shown in Figure 1.</p> |
| + | <img src="https://static.igem.org/mediawiki/2014/2/24/T1.png"> | ||
| + | <p>Figure 1. The cleaved plasmids</p><h1 id="3" style="padding-top: 80px; | ||
| + | margin-top: -45px;">Week 3 8.04-8.10</h1><p>1. We linked the L1 and BBa_B0015 with pSB1T3 (named F1), L2 and BBa_I9026 with pSB1T3 (F2). Then we transformed them into E.coli to amplify them and we extracted the plasmids to test their quality.</p><p>2. We linked E11 and E12 with pSB1T3 (named LA1), E21 and E22 with pSB1A3 (LA2).</p><p>3. We cleaved the BBa_J37019 (Named E11) and BBa_R0077 (E21) with EcoR I and Spe I, BBa_I9026 (E12), BBa_K081016 (E22) and BBa_C0077 (E24) with Xba I and Pst I again and tested their qualities by electrophoresis and then we did the gel purification.</p><p>4. We cleaved the BBa_R0077 with Spe I and Pst I (named EP21).</p><p>5. We linked EP21 and E22 with 3 different backbones (pSB1T3, pSB1A3, and pSB1C3) which are tested by electrophoresis.</p><p>Results:</p><table class="table table-striped"><caption>The concentration of plasmids and linkage product</caption><thead><tr><td><p>Name</li> | ||
</td><td><p>Concentration (ng/3μl)</p> | </td><td><p>Concentration (ng/3μl)</p> | ||
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</tr></tbody> | </tr></tbody> | ||
</table> | </table> | ||
| - | <li>Note: The different concentrations are from different tubes.</p><p>2. < | + | <li>Note: The different concentrations are from different tubes.</p><p>2. The electrophoresis results are shown in Figure 2.</p><img src="https://static.igem.org/mediawiki/2014/4/49/T2.png"><p>Figure 2. A, C, and D the gel purification results and cleaved plasmids. B. the cleaved EP21.</p><h1 id="4" style="padding-top: 80px; |
| + | margin-top: -45px;">Week 4 8.11-8.17</h1><p>1. We did the liquid culture of BBa_R0077 and BBa_C0077.</p><p>2. We extracted the BBa_J37019, BBa_I9026 plasmids and then we cleaved both of them (BBa_J37019 with Spe I and Pst I; BBa_I9026 with Xba I and Pst I) and linked them with pSB1C3. Finally we tested the quality by transforming into E.coli.</p><p>3. We linked BBa_J37019 and BBa_I9026(LI1), BBa_R0077 and BBa_C0077 with pSB1C3.</p><p>4. We extracted BBa_I9026, BBa_J37019, BBa_C0077, and BBa_R0077.</p><p>5. We cleaved BBa_J37019 with E, S (D1, D2) or S, P (D3, D4) and BBa_I9026 plasmids with E, S, (D5, D6) and S, P (D7, D8) enzymes. Then we did the gel purification.</p><p>6. We linked the BBa_J37019 with BBa_I9026 with different types (named LI3).</p><p>7. We transformed LI3 into E.coli and extracted the plasmids to test the quality.</p><p>Results</p><table class="table table-striped"><caption>The concentration of plasmids</caption><thead><tr><td><p>Name</li> | ||
</td><td><p>Concentration (ng/3μl)</p> | </td><td><p>Concentration (ng/3μl)</p> | ||
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</tr></tbody> | </tr></tbody> | ||
</table> | </table> | ||
| - | <p>Note: The different concentrations are from different tubes.</p><p>2. The electrophoresis results are shown in Figure 3.</p><p>Figure A. the cleaved BBa_J37019 and BBa_I9026 plasmids. B. the cleaved linkage products. C and D is the gel purification of BBa_J37019 and BBa_I9026. E. the cleaved BBa_R0077 and BBa_C0077.</p><p>F. the linkage products.</p>< | + | <p>Note: The different concentrations are from different tubes.</p><p>2. The electrophoresis results are shown in Figure 3.</p><img src="https://static.igem.org/mediawiki/2014/thumb/a/a7/T3.png/471px-T3.png"><p>Figure A. the cleaved BBa_J37019 and BBa_I9026 plasmids. B. the cleaved linkage products. C and D is the gel purification of BBa_J37019 and BBa_I9026. E. the cleaved BBa_R0077 and BBa_C0077.</p><p>F. the linkage products.</p><h1 id="5" style="padding-top: 80px; |
| + | margin-top: -45px;">Week 5 8.18-8.24</h1><p>1. We linked the E11 and E12 with pSB1T3 by 3A assembly and E11 and E12 by traditional assembly.</p><p>2. We Amplified the LII3 which was tested by cleavage and electrophoresis.</p><p>3. We transformed the BBa_J37019, BBa_I9026, BBa_C0077, and L1T1.</p><p>4. We cultured the LIIF in liquid and transformed it.</p><p>5. We did the gel purification of BBa_J37019 and BBa_K747092.</p><p>Results</p><p>The electrophoresis results are shown in Figure 4.</p><img src="https://static.igem.org/mediawiki/2014/e/e7/T4.png"><p>Figure 4. A the gel purification results; B. the LII3 results.</p> | ||
Latest revision as of 03:59, 18 October 2014
