Difference between revisions of "Team:H14Z1 Hangzhou/Demonstrate"

 
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                     <!------------------------Part 1------------------------------ -->
 
                     <!------------------------Part 1------------------------------ -->
 
                     <h3 class="content_subtitle">Functional validation of GSH module and SAM module by HPLC</h3>
 
                     <h3 class="content_subtitle">Functional validation of GSH module and SAM module by HPLC</h3>
                     <p class="content_context">
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                     <p class="content_context" style="text-indent:2em; text-align:justify">
 
                         To further validate the GSH module and SAM module, we tested the GSH and SAM content in final
 
                         To further validate the GSH module and SAM module, we tested the GSH and SAM content in final
                         engineered strain L. lactis/pNZ-GMcA.
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                         engineered strain <i>L. lactis</i>/pNZ-GMcA.
 
                     </p>
 
                     </p>
                     <p class="content_context">
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                     <p class="content_context" style="text-indent:2em; text-align:justify">
                         It is known that L. lactis NZ9000 cannot form GSH and can form little SAM by itself. As shown
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                         It is known that <i>L. lactis</i> NZ9000 cannot form GSH and can form little SAM by itself. As shown
                         in Figure.1, no GSH was detected in L. lactis NZ9000 as expected. And GSH was obviously
+
                         in Figure.1, no GSH was detected in <i>L. lactis</i> NZ9000 as expected. And GSH was obviously
 
                         appeared during the fermentation, illustrating that GSH module was effective. And Figure.2
 
                         appeared during the fermentation, illustrating that GSH module was effective. And Figure.2
                         showed that more SAM were accumulated in strain L. lactis/pNZ-GMcA than wild-type, illustrating
+
                         showed that more SAM were accumulated in strain <i>L. lactis</i>/pNZ-GMcA than wild-type, illustrating
 
                         the good function of SAM module.
 
                         the good function of SAM module.
 
                     </p>
 
                     </p>
 
                     <div>
 
                     <div>
                         <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/d/d0/T--H14Z1_Hangzhou--project_demonstrate_fig1.png"></p>
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                         <p><img style="width: 55%; margin-top: 12px;" src="https://static.igem.org/mediawiki/2018/d/d0/T--H14Z1_Hangzhou--project_demonstrate_fig1.png"></p>
                         <p class="content_context" style="text-align:center; font-size:8px">
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                         <p class="content_context" style="text-align:center; font-size:18px">
 
                             Figure. 1 HPLC analysis of GSH samples
 
                             Figure. 1 HPLC analysis of GSH samples
 
                         </p>
 
                         </p>
 
                     </div>
 
                     </div>
 
                     <div>
 
                     <div>
                         <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/e/e5/T--H14Z1_Hangzhou--project_demonstrate_fig2.png"></p>
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                         <p><img style="width: 55%; margin-top: 12px;" src="https://static.igem.org/mediawiki/2018/e/e5/T--H14Z1_Hangzhou--project_demonstrate_fig2.png"></p>
                         <p class="content_context" style="text-align:center; font-size:8px">
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                         <p class="content_context" style="text-align:center; font-size:18px">
                             Figure.2 HPLC analysis of SAM samples
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                             Figure. 2 HPLC analysis of SAM samples
 
                         </p>
 
                         </p>
 
                     </div>
 
                     </div>
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                     <h3 class="content_subtitle">Functional validation of adhesion factor module by self-aggregation
 
                     <h3 class="content_subtitle">Functional validation of adhesion factor module by self-aggregation
 
                         value assay</h3>
 
                         value assay</h3>
                     <p class="content_context">
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                     <p class="content_context" style="text-indent:2em; text-align:justify">
 
                         To validate adhesion factor module, we carried out self-aggregation assay which could reflect
 
                         To validate adhesion factor module, we carried out self-aggregation assay which could reflect
                         the adhesivity of strains. As shown in Figure. 3, by introducing plasmid pNZ-GMcA, L. lactis
+
                         the adhesivity of strains. As shown in Figure. 3, by introducing plasmid pNZ-GMcA, <i>L. lactis</i>
 
                         could have obviously improvement in self-aggregation value, illustrating that adhesion module
 
                         could have obviously improvement in self-aggregation value, illustrating that adhesion module
 
                         was expressed successfully and worked well.
 
                         was expressed successfully and worked well.
 
                     </p>
 
                     </p>
                     <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/3/31/T--H14Z1_Hangzhou--project_demonstrate_fig3.png"></p>
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                     <p><img style="width: 45%;  margin-top: 12px;" src="https://static.igem.org/mediawiki/2018/3/31/T--H14Z1_Hangzhou--project_demonstrate_fig3.png"></p>
                     <p class="content_context" style="text-align:center; font-size:8px">
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                     <p class="content_context" style="text-align:center; font-size:18px">
                         Figure. 3 Comparison of self-aggregation value between L.lactis NZ9000 and L. lactis/pNZ-GMcA
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                         Figure. 3 Comparison of self-aggregation value between L.lactis NZ9000 and <i>L. lactis</i>/pNZ-GMcA
 
                     </p>
 
                     </p>
  
 
                     <!------------------------Part 3------------------------------ -->
 
                     <!------------------------Part 3------------------------------ -->
 
                     <h3 class="content_subtitle">Functional comparison among different composite modules</h3>
 
                     <h3 class="content_subtitle">Functional comparison among different composite modules</h3>
                     <p class="content_context">
+
                     <p class="content_context" style="text-indent:2em; text-align:justify">
 
                         After constructing plasmids containing different combination of the three modules, they were
 
                         After constructing plasmids containing different combination of the three modules, they were
                         introduced to L. lactis NZ9000 by electroporation, separately, as shown in Figure. 4. Then, the
+
                         introduced to <i>L. lactis</i> NZ9000 by electroporation, separately. Then, the function of these
                        function of these engineered strains were validated by detected the GSH and SAM content and
+
                        engineered strains were validated by detected the GSH and SAM content and self-aggregation
                        self-aggregation value. As depicted in Figure. 5, while adding the modules to the strain, the
+
                         value.
                         function of this module was obtained no matter single expression or combinational expression.
+
                    </p>
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                    <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/3/30/T--H14Z1_Hangzhou--project_demonstrate_fig4.png"></p>
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                    <p class="content_context" style="text-align:center; font-size:8px">
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                        Figure. 4 Schematic diagram of transferring plasmids to L. lactis by electroporation
+
 
                     </p>
 
                     </p>
                     <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/0/02/T--H14Z1_Hangzhou--project_demonstrate_fig5.png"></p>
+
                     <p><img style="width: 80%; margin-top: 12px; margin-left: 3em" src="https://static.igem.org/mediawiki/2018/9/94/T--H14Z1_Hangzhou--demonstrate_fig11.png"></p>
                     <p class="content_context" style="text-align:center; font-size:8px">
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                     <p class="content_context" style="text-align:center; font-size:18px">
                         Figure. 5 Functional comparison among different composite modules in L. lactis.
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                         Figure. 4 Functional comparison among different composite modules in <i>L. lactis</i>.
 
                     </p>
 
                     </p>
  
 
                     <!------------------------Part 4------------------------------ -->
 
                     <!------------------------Part 4------------------------------ -->
 
                     <h3 class="content_subtitle">Process demonstrate of smart yogurts with three target modules</h3>
 
                     <h3 class="content_subtitle">Process demonstrate of smart yogurts with three target modules</h3>
                     <p class="content_context">
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                     <p class="content_context" style="text-indent:2em; text-align:justify">
                         After validation of the function of the final engineered strain L. lactis/pNZ-GMcA, we applied
+
                         After validation of the function of the final engineered strain <i>L. lactis</i>/pNZ-GMcA, we applied
 
                         it to produce smart yogurts. As depicted below, we produced three kinds of smart yogurts. One
 
                         it to produce smart yogurts. As depicted below, we produced three kinds of smart yogurts. One
 
                         was produced by using wild-type strain L.lactis NZ9000 adding GSH and SAM in the process.
 
                         was produced by using wild-type strain L.lactis NZ9000 adding GSH and SAM in the process.
                         Another one was produced by using engineered L. lactis/pNZ-GMcA and the last one using
+
                         Another one was produced by using engineered <i>L. lactis</i>/pNZ-GMcA and the last one using
                         wild-type strain L.bulgaricus and engineered L. lactis/pNZ-GMcA without adding GSH and SAM.
+
                         wild-type strain L.bulgaricus and engineered <i>L. lactis</i>/pNZ-GMcA without adding GSH and SAM.
 
                     </p>
 
                     </p>
                     <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/9/9d/T--H14Z1_Hangzhou--project_demonstrate_fig6.png"></p>
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                     <p><img style="width: 65%; " src="https://static.igem.org/mediawiki/2018/9/9d/T--H14Z1_Hangzhou--project_demonstrate_fig6.png"></p>
                     <p class="content_context" style="text-align:center; font-size:8px">
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                     <p class="content_context" style="text-align:center; font-size:18px">
                         Figure. 6 Schematic diagram of producing smart yogurts
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                         Figure. 5 Schematic diagram of producing smart yogurts
 
                     </p>
 
                     </p>
  
 
                     <!------------------------Part 5------------------------------ -->
 
                     <!------------------------Part 5------------------------------ -->
 
                     <h3 class="content_subtitle">The content of GSH and SAM in the smart yogurts</h3>
 
                     <h3 class="content_subtitle">The content of GSH and SAM in the smart yogurts</h3>
                     <p class="content_context">
+
                     <p class="content_context" style="text-indent:2em; text-align:justify">
 
                         The GSH and SAM content of the smart yogurts in the fermentation at 6 and 12 hours were
 
                         The GSH and SAM content of the smart yogurts in the fermentation at 6 and 12 hours were
                         detected. As shown in Figure. 7, the smart yogurt made by using engineered L. lactis contained
+
                         detected. As shown in Figure. 6, the smart yogurt made by using engineered <i>L. lactis</i> contained
 
                         obvious more GSH and SAM. The content increased with the increase of cell numbers.
 
                         obvious more GSH and SAM. The content increased with the increase of cell numbers.
 
                     </p>
 
                     </p>
                     <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/c/cf/T--H14Z1_Hangzhou--project_demonstrate_fig7.png"></p>
+
                     <p><img style="width: 80%;" src="https://static.igem.org/mediawiki/2018/c/cf/T--H14Z1_Hangzhou--project_demonstrate_fig7.png"></p>
                     <p class="content_context" style="text-align:center; font-size:8px">
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                     <p class="content_context" style="text-align:center; font-size:18px">
                         Figure. 7 GSH and SAM content in the smart yogurts at 6 and 12 hours. Asterisk represented not
+
                         Figure. 6 GSH and SAM content in the smart yogurts at 6 and 12 hours. Asterisk represented not
 
                         detected.
 
                         detected.
 
                     </p>
 
                     </p>
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                     <!------------------------Part 6------------------------------ -->
 
                     <!------------------------Part 6------------------------------ -->
 
                     <h3 class="content_subtitle">Application of patent for the production of smart yogurts</h3>
 
                     <h3 class="content_subtitle">Application of patent for the production of smart yogurts</h3>
                     <p class="content_context">
+
                     <p class="content_context" style="text-indent:2em; text-align:justify">
 
                         At last, we have applied a Chinese patent for producing smart yogurts using the engineered
 
                         At last, we have applied a Chinese patent for producing smart yogurts using the engineered
 
                         strain containing three modules. And it was registered by National Patent Office of China.
 
                         strain containing three modules. And it was registered by National Patent Office of China.
 
                     </p>
 
                     </p>
                     <p><img style="width: 50%;" src="https://static.igem.org/mediawiki/2018/b/bf/T--H14Z1_Hangzhou--project_demonstrate_fig8.png"></p>
+
                     <p><img style="width: 90%;" src="https://static.igem.org/mediawiki/2018/b/bf/T--H14Z1_Hangzhou--project_demonstrate_fig8.png"></p>
                     <p class="content_context" style="text-align:center; font-size:8px">
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                     <p class="content_context" style="text-align:center; font-size:18px">
                         Figure. 8 The patent application for producing smart yogurts
+
                         Figure. 7 The patent application for producing smart yogurts
 
                     </p>
 
                     </p>
 
                 </div>
 
                 </div>

Latest revision as of 01:21, 18 October 2018

<!DOCTYPE html>

Demonstrate

Functional validation of GSH module and SAM module by HPLC

To further validate the GSH module and SAM module, we tested the GSH and SAM content in final engineered strain L. lactis/pNZ-GMcA.

It is known that L. lactis NZ9000 cannot form GSH and can form little SAM by itself. As shown in Figure.1, no GSH was detected in L. lactis NZ9000 as expected. And GSH was obviously appeared during the fermentation, illustrating that GSH module was effective. And Figure.2 showed that more SAM were accumulated in strain L. lactis/pNZ-GMcA than wild-type, illustrating the good function of SAM module.

Figure. 1 HPLC analysis of GSH samples

Figure. 2 HPLC analysis of SAM samples

Functional validation of adhesion factor module by self-aggregation value assay

To validate adhesion factor module, we carried out self-aggregation assay which could reflect the adhesivity of strains. As shown in Figure. 3, by introducing plasmid pNZ-GMcA, L. lactis could have obviously improvement in self-aggregation value, illustrating that adhesion module was expressed successfully and worked well.

Figure. 3 Comparison of self-aggregation value between L.lactis NZ9000 and L. lactis/pNZ-GMcA

Functional comparison among different composite modules

After constructing plasmids containing different combination of the three modules, they were introduced to L. lactis NZ9000 by electroporation, separately. Then, the function of these engineered strains were validated by detected the GSH and SAM content and self-aggregation value.

Figure. 4 Functional comparison among different composite modules in L. lactis.

Process demonstrate of smart yogurts with three target modules

After validation of the function of the final engineered strain L. lactis/pNZ-GMcA, we applied it to produce smart yogurts. As depicted below, we produced three kinds of smart yogurts. One was produced by using wild-type strain L.lactis NZ9000 adding GSH and SAM in the process. Another one was produced by using engineered L. lactis/pNZ-GMcA and the last one using wild-type strain L.bulgaricus and engineered L. lactis/pNZ-GMcA without adding GSH and SAM.

Figure. 5 Schematic diagram of producing smart yogurts

The content of GSH and SAM in the smart yogurts

The GSH and SAM content of the smart yogurts in the fermentation at 6 and 12 hours were detected. As shown in Figure. 6, the smart yogurt made by using engineered L. lactis contained obvious more GSH and SAM. The content increased with the increase of cell numbers.

Figure. 6 GSH and SAM content in the smart yogurts at 6 and 12 hours. Asterisk represented not detected.

Application of patent for the production of smart yogurts

At last, we have applied a Chinese patent for producing smart yogurts using the engineered strain containing three modules. And it was registered by National Patent Office of China.

Figure. 7 The patent application for producing smart yogurts