Team:HZAU-China/Construction

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         <p class="highlighttext">Our rewirable circuit includes three systems: input system, processing system and output system. For input system, which is supposed to prevent the leaky expression of Cre protein, it is composed of taRNA, crRNA, Cre protein and corresponding promoters. We used the standard method of biobrick connection to generate the input system. During the process, of course, standardized crRNA cannot be found in the Plate Kits and it is tough to get and restandardize, so, we decided to synthetize this small segment by PCR (as shown in protocol). Luckily, we found the optimal condition and get the crRNA which is standardized, and finally finished the construction of input system. For processing system, which is one of the toughest parts in our project, one is composed of three repressor genes---LacI, TetR and cI, their corresponding promoters and two recombination sites; another is composed of three genes related to generation and degradation of AHL molecule---AiiA, LuxR, LuxI, their corresponding promoters and two recombination sites. Due to design of the circuit, we have to connect two genes reversely to put their corresponding promoters between lox71 and lox66. To this end, we came up with a strategy that one segment is digested by EcoRI and SpeI, another segment is digested by EcoRI and PstI and the vector is digested by XbaI and PstI, and finally do a ligation. As to output system, we design two methods to detect whether our processing system works or not. One of them is fluorescent protein, we used mCherry protein and Cyan Fluorescent Protein to detect expression of two promoters simultaneously; due to the half-life of fluorescent protein and its quenching, which may interrupt the result of repressilator or positive-feedback loop, we design another detection device---fluorescent RNA, termed Spinach, which is a complex of RNA aptamers and fluorophore. We synthetize the fluorophore by ourselves through chemical experiment and synthetize the RNA aptamers which is standardized by company. </p>  
+
         <p class="highlighttext">Our rewirable circuit includes three modules: an input module, a processing module and an output module. </p>
 +
 
 +
<p class="highlighttext">For input module, which is supposed to prevent the leaky expression of Cre protein, it is composed of taRNA, crRNA, Cre protein and corresponding promoters. We use the standard method of biobrick connection to generate the input module. During the process, of course, standardized crRNA cannot be found in the Plate Kits and it is tough for us to get and restandardize, so, we decide to synthetize this small segment by PCR (as shown in protocol). Luckily, we have found the optimal condition and get the crRNA which is standardized, and finally finish the construction of input module.</p>
 +
<img src="https://static.igem.org/mediawiki/2014/8/83/HZAU_CONSTRUCTION_FIGURE1.jpg"  width="380px" class="img-center"/>
 +
<p class="figuretext">Figure 1. the input module</p>
 +
 
 +
<p class="highlighttext">For processing module, which is one of the toughest parts in our project, one is composed of three repressor genes---lacI, tetR and cI, their corresponding promoters and two recombination sites; another is composed of three genes related to generation and degradation of AHL molecule---aiiA, luxR, luxI, their corresponding promoters and two recombination sites. Due to the design of this circuit, we have to connect two genes reversely to put their corresponding promoters between lox71 site and lox66 site. To this end, we come up with a strategy that one segment is digested by <span style="font-style:italic;">Eco</span>RI and <span style="font-style:italic;">Spe</span>I, another segment is digested by <span style="font-style:italic;">Eco</span>RI and <span style="font-style:italic;">Spe</span>I and the vector is digested by <span style="font-style:italic;">Xba</span>I and <span style="font-style:italic;">Pst</span>I, and finally do a ligation to finish our processing module.</p>
 +
<img src="https://static.igem.org/mediawiki/2014/0/0b/HZAU_CONSTRUCTION_FIGURE2%281%29.png"  width="750px" class="img-center"/>
 +
<p class="figuretext">Figure 2. the processing module</p>
 +
 
 +
<p class="highlighttext">As to output module, we design two methods to detect whether our processing module works or not. One of them is fluorescent protein, we used mCherry protein and Cyan Fluorescent Protein to detect the expression of two promoters simultaneously; and due to the half-life of fluorescent protein and its quenching, which may interrupt the result of repressilator or positive-feedback loop(the names of our processing module), we design another detection device---fluorescent RNA, which is a complex of RNA aptamers and fluorophore. We synthetize the fluorophore with the help of Xie Hanchang and Xu Yuanyuan through chemical experiments and we synthetize the RNA aptamers which is standardized by company. </p>
 +
<img src="https://static.igem.org/mediawiki/2014/8/87/HZAU_CONSTRUCTION_FIGURE3.png"  width="380px" class="img-center"/>
 +
<p class="figuretext">Figure 3. the output module</p>
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Latest revision as of 02:13, 18 October 2014

<!DOCTYPE html> 2014HZAU-China

Construction

Our rewirable circuit includes three modules: an input module, a processing module and an output module.

For input module, which is supposed to prevent the leaky expression of Cre protein, it is composed of taRNA, crRNA, Cre protein and corresponding promoters. We use the standard method of biobrick connection to generate the input module. During the process, of course, standardized crRNA cannot be found in the Plate Kits and it is tough for us to get and restandardize, so, we decide to synthetize this small segment by PCR (as shown in protocol). Luckily, we have found the optimal condition and get the crRNA which is standardized, and finally finish the construction of input module.

Figure 1. the input module

For processing module, which is one of the toughest parts in our project, one is composed of three repressor genes---lacI, tetR and cI, their corresponding promoters and two recombination sites; another is composed of three genes related to generation and degradation of AHL molecule---aiiA, luxR, luxI, their corresponding promoters and two recombination sites. Due to the design of this circuit, we have to connect two genes reversely to put their corresponding promoters between lox71 site and lox66 site. To this end, we come up with a strategy that one segment is digested by EcoRI and SpeI, another segment is digested by EcoRI and SpeI and the vector is digested by XbaI and PstI, and finally do a ligation to finish our processing module.

Figure 2. the processing module

As to output module, we design two methods to detect whether our processing module works or not. One of them is fluorescent protein, we used mCherry protein and Cyan Fluorescent Protein to detect the expression of two promoters simultaneously; and due to the half-life of fluorescent protein and its quenching, which may interrupt the result of repressilator or positive-feedback loop(the names of our processing module), we design another detection device---fluorescent RNA, which is a complex of RNA aptamers and fluorophore. We synthetize the fluorophore with the help of Xie Hanchang and Xu Yuanyuan through chemical experiments and we synthetize the RNA aptamers which is standardized by company.

Figure 3. the output module

Contacts
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    Wuhan, Hubei Province
    430070 P.R.China
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