Team:Peking S/lab/notebook/fjc

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<font size=6> <font color="#FFFFFF">Yanrong Ma's Notebook</font></FONT>
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<font size=6> <font color="#FFFFFF">Jingchen Feng's Notebook</font></FONT>
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== '''summary''' ==
 
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I am mainly responsible for the modeling work of our project. I model our balancer and give simulation result of balancer and XOR gate. Besides, under the guidance of Xiao Qing and Yiwei Chen I help constructing sRNA-dependent competitor. I also participate in the microfluidic work.
 
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=='''Contents'''==
 
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== '''Summary''' ==
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I am mainly responsible for the modeling work of our project. I model our balancer and give simulation result of balancer and XOR gate. Besides, under the guidance of Xiao Qing and Yiwei Chen I help constructing sRNA-dependent competitor. I also participate in the microfluidic work.
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=='''Contents'''==
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6.24-7.5
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Molecular cloning training . such as transformation and DNA ligation and Enzyme digestion.
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7.6-7.7
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Obtaining Streptomyces strain from professor Honglong and acquired some skills in Streptomyces culturing.
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7.8-7.12
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Usinig PCR strategy to get a-factor generator gene afsA and a-factor receptor gene arpa from Streptomyces genome.
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7.13-7.23
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Using different polymerases(prime star、esay pfu、TAG ) in PCR to gain afsa and arpa genes from the Streptomyces strain. And we finally got those two genes by changing many PCR parameters.
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7.24-8.13
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Constructing the A-factor receive system including constitutively expressed arpA and a gfp whose expression is controlled by arpA and afsA synthesized molecules.
 
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8.14-9.5
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6.24-7.12
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Begin designing microfluidic device, with the help from GuangWei Si (graduate studying microfluidic). We decide the structure of the device to perform the required function. We further do preliminary experiments to test the performance of our device and it works as we expected.
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7.12-9.5
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Testing A-factor system performance.
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Under the guidance of Xiao Qin and Yiwei Chen, I help constructing the competitor module and characterize its performance.Meanwhile, I write the code for our modeling work and run it on computers several times to check its correctness. 
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9.5-9.11
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9.6-9.18
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Give the first version of ODE equations to model our balancer. I also model the XOR gate during this period.(Basing on the J Christopher Anderson previous work)
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9.11-9.20
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Construction cinI/cinR system mainly contains constitutively expressed cinR and a gfp controlled by cinR and cinI synthesized chemical molecules.
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Receive many advices from Qi OuYang (professor who in charge of our project) and modify our model, then give the second version.  
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9.20-9.27
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9.19-10.1
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Solve some problems encountered in mirofluidic and modify the performance of the device.
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9.27-10.6
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Characterization of cinI/cinR system.
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Finally check our model and put our simulation process and result on wiki.

Latest revision as of 05:16, 5 October 2011


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Jingchen Feng's Notebook



Summary

I am mainly responsible for the modeling work of our project. I model our balancer and give simulation result of balancer and XOR gate. Besides, under the guidance of Xiao Qing and Yiwei Chen I help constructing sRNA-dependent competitor. I also participate in the microfluidic work.

Contents

6.24-7.12

Begin designing microfluidic device, with the help from GuangWei Si (graduate studying microfluidic). We decide the structure of the device to perform the required function. We further do preliminary experiments to test the performance of our device and it works as we expected.

7.12-9.5

Under the guidance of Xiao Qin and Yiwei Chen, I help constructing the competitor module and characterize its performance.Meanwhile, I write the code for our modeling work and run it on computers several times to check its correctness.

9.5-9.11

Give the first version of ODE equations to model our balancer. I also model the XOR gate during this period.(Basing on the J Christopher Anderson previous work)

9.11-9.20

Receive many advices from Qi OuYang (professor who in charge of our project) and modify our model, then give the second version.

9.20-9.27

Solve some problems encountered in mirofluidic and modify the performance of the device.

9.27-10.6

Finally check our model and put our simulation process and result on wiki.