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− | <p> After studying lots of papers and brainstorming for about one month, we confirmed our project for this year, which is about a regulation method at post-transcription level. We came up with the idea that controlling the quantitative expression of proteins by inserting different stem loops into circuits.</p> | + | <p> After studying lots of papers and brainstorming for about one month, we confirmed our project for this year, which is about a regulation method at post-transcription level. We came up with the idea that controlling the quantitative expression of proteins by inserting different stem-loops into circuits.</p> |
<p>Our wet lab, dry lab and also design group started to work!</p> | <p>Our wet lab, dry lab and also design group started to work!</p> | ||
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− | <p>We started to construct our circuits by ourselves. At first, we designed four circuits that both had the same promoter, RBS, terminator and two fluorescent proteins GFP and mCherry. In the first circuit, there were only proteins. In the second circuit, there was an endonuclease RNase cleavage site which would make the circuit into two fragments. Both in the third and fourth circuits, there was stem loops but circuit 4 had an RNase site.</p> | + | <p>We started to construct our circuits by ourselves. At first, we designed four circuits that both had the same promoter, RBS, terminator and two fluorescent proteins GFP and mCherry. In the first circuit, there were only proteins. In the second circuit, there was an endonuclease RNase cleavage site which would make the circuit into two fragments. Both in the third and fourth circuits, there was stem-loops but circuit 4 had an RNase site.</p> |
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− | <p>We learned the protocol of how to extract mRNA and started to do experiment from circuit 1 to circuit 4. Then, we detect the mRNA by using RT PCR. <br>We also started to measure the growth curve of <i>E.coli</i> by using UV spectrophotometer, which under the wave length of 600 to decide the time point of detecting the expression of protein.</p> | + | <p>We learned the protocol of how to extract mRNA and started to do experiment from circuit 1 to circuit 4. Then, we detect the mRNA by using RT-PCR. <br>We also started to measure the growth curve of <i>E.coli</i> by using UV spectrophotometer, which under the wave length of 600 to decide the time point of detecting the expression of protein.</p> |
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− | <img src="https://static.igem.org/mediawiki/2016/7/72/T--OUC-China--notebook-9.jpg" class="img-responsive" alt="We had two designed stem loops which respectively had the same free energy with the origin one."> | + | <img src="https://static.igem.org/mediawiki/2016/7/72/T--OUC-China--notebook-9.jpg" class="img-responsive" alt="We had two designed stem-loops which respectively had the same free energy with the origin one."> |
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Revision as of 01:02, 20 October 2016
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Week 1 May 12- May 19
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Week 2 May 20- May 27
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Week 3 May 28- June 4
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Week 6 Jun 5- June 12
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Week 7 June 13- June 20
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Week 12 July 11- July 18
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Week 15 July 19- July 26
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Week 16 July 27-August 3
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Week 17 August 4- August 11
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Week 18 August 12- August 19
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Week 19 August 20-August 27
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Week 20 August 28- September 4
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Week 21 September 5- September 12
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Week 22 September 13- September 20
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Week 24 September 21-September 28
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Week 25 September 29-Octoboer 6
After studying lots of papers and brainstorming for about one month, we confirmed our project for this year, which is about a regulation method at post-transcription level. We came up with the idea that controlling the quantitative expression of proteins by inserting different stem-loops into circuits.
Our wet lab, dry lab and also design group started to work!
We established our team consisting 12 students from different grades and different majors and then registered our team, OUC-China.
For our wet lab, we came up with problems when we organized the logical thoughts of our project therefore we went to Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences to consult professors.
Cistrons Concerto
Thanks:
1.Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences
2.NEW ENGLAND Biolabs
3.GenScript
Contact us:
E-mail: oucigem@163.com
Designed and built by @ Jasmine Chen and @ Zexin Jiao
We are OUC-iGEM