Difference between revisions of "Team:SCUT-ChinaA/Parts"

Line 11: Line 11:
  
  
 
+
<div class="column full_size">
 
<p style="text-align: justify">We standardized some integration modules involved in our project. The sequences of our integration modules have been codon-optimized for the heterologously expression in <em>Yarrowia lipolytica</em> and are able to successfully transcribe. The standardized modules we build can be used with each other. The two terminators provided have been verified that can stop the transcriptional activity of the transcription complex effectively, and can be used widely in <em> Y. lipolytica.</em> The part SpyCatcher can be fused with other enzyme involved in the metabolic pathway. Thus together with the SpyTag, by constructing metabolic coupling modules thereby enhancing the metabolic flux, In theory, the inhibition of any rate-limiting step in the pathway can be released. SpyTag-Ls is an assembly module successfully built in our project. Tag and LS are connected by PT linker. The part tHMG1 is recognized as a rate-limiting enzyme in the MVA pathway, and increasing its copy number can definitely enhance the metabolic flux of MVA.</p>
 
<p style="text-align: justify">We standardized some integration modules involved in our project. The sequences of our integration modules have been codon-optimized for the heterologously expression in <em>Yarrowia lipolytica</em> and are able to successfully transcribe. The standardized modules we build can be used with each other. The two terminators provided have been verified that can stop the transcriptional activity of the transcription complex effectively, and can be used widely in <em> Y. lipolytica.</em> The part SpyCatcher can be fused with other enzyme involved in the metabolic pathway. Thus together with the SpyTag, by constructing metabolic coupling modules thereby enhancing the metabolic flux, In theory, the inhibition of any rate-limiting step in the pathway can be released. SpyTag-Ls is an assembly module successfully built in our project. Tag and LS are connected by PT linker. The part tHMG1 is recognized as a rate-limiting enzyme in the MVA pathway, and increasing its copy number can definitely enhance the metabolic flux of MVA.</p>
 
</div>
 
</div>
  
 
<div class="clear"></div>
 
<div class="clear"></div>
 +
<p></p>
 
<div class="column full_size">
 
<div class="column full_size">
<h2></h2>
+
 
<div class="column jiadefull_size">
+
 
<table>  
 
<table>  
 
<tr>  
 
<tr>  

Revision as of 19:41, 17 October 2018

SCUT-ChinaA

We standardized some integration modules involved in our project. The sequences of our integration modules have been codon-optimized for the heterologously expression in Yarrowia lipolytica and are able to successfully transcribe. The standardized modules we build can be used with each other. The two terminators provided have been verified that can stop the transcriptional activity of the transcription complex effectively, and can be used widely in Y. lipolytica. The part SpyCatcher can be fused with other enzyme involved in the metabolic pathway. Thus together with the SpyTag, by constructing metabolic coupling modules thereby enhancing the metabolic flux, In theory, the inhibition of any rate-limiting step in the pathway can be released. SpyTag-Ls is an assembly module successfully built in our project. Tag and LS are connected by PT linker. The part tHMG1 is recognized as a rate-limiting enzyme in the MVA pathway, and increasing its copy number can definitely enhance the metabolic flux of MVA.

Name Type Description Length Code
XPR2 Terminator XPR2 411 BBa_K2733001
lip2 Terminator lip2 202 BBa_K2733002
LS Coding limonene synthase from Agastache rugosa 1842 BBa_K2733003
SpyCatcher Coding SpyCatcher 417 BBa_K2733004
SpyTag-LS Composite SpyTag-LS 1932 BBa_K2733005
tHMG1 Coding tHMG1 1503 BBa_K2733006