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<h3>Plasmid construction</h3> | <h3>Plasmid construction</h3> | ||
− | <p>We have accomplished the construction of 6 main parts whose functions are described respectively in previous design page. <a href="https://2017.igem.org/Team:BNU-China/Design#title2">(Microtubule module)</a> They are pYD1-α tubulin <a href="">(BBa_K2220019)</a>, pYD1-β tubulin <a href="">(BBa_K2220020)</a>, pYCα-α tubulin <a href="">(BBa_K2220022)</a>, pYCα-β tubulin <a href="">(BBa_K2220023)</a>, pYCα-mCherry-α tubulin <a href="">(BBa_K2220024)</a>, pYCα-β-tubulin-mGFP <a href="">(BBa_K2220025)</a> and pYCα-mCherry <a href="">(BBa_K2220021)</a>. All parts have been validated by sequencing. | + | <p>We have accomplished the construction of 6 main parts whose functions are described respectively in the previous design page. <a href="https://2017.igem.org/Team:BNU-China/Design#title2">(Microtubule module)</a> They are pYD1-α tubulin <a href="">(BBa_K2220019)</a>, pYD1-β tubulin <a href="">(BBa_K2220020)</a>, pYCα-α tubulin <a href="">(BBa_K2220022)</a>, pYCα-β tubulin <a href="">(BBa_K2220023)</a>, pYCα-mCherry-α tubulin <a href="">(BBa_K2220024)</a>, pYCα-β-tubulin-mGFP <a href="">(BBa_K2220025)</a> and pYCα-mCherry <a href="">(BBa_K2220021)</a>. All parts have been validated by sequencing. |
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<h3>Protein expression analysis- Fluorescence microscopy</h3> | <h3>Protein expression analysis- Fluorescence microscopy</h3> | ||
− | <p>These are images recorded by the Fluorescence microscope.The engineered yeasts were induced at 30°C for 20 hours. From the image, we can | + | <p>These are the images recorded by the Fluorescence microscope. The engineered yeasts were induced at 30°C for 20 hours. From the image, we can see that our engineered yeasts have successfully expressed our recombinant proteins mCherry-α and mCherry. Moreover, the expression rate of mCherry is almost up to 100%. |
</p> | </p> | ||
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<p><br> | <p><br> | ||
− | Our engineered yeasts, containing pYD1-β tubulin vector, have been proved | + | Our engineered yeasts, containing pYD1-β tubulin vector, have been proved to have successfully expressed exogenous βtubulin by Western blot analysis.</p> |
<img src="https://static.igem.org/mediawiki/2017/9/9f/T-BNU-China-results4.png" alt="Sorry, the image is not supported by your browser."> | <img src="https://static.igem.org/mediawiki/2017/9/9f/T-BNU-China-results4.png" alt="Sorry, the image is not supported by your browser."> | ||
<h4>Figure 4 The partly results of a Western blot analysis carried out with an anti-V5 antibody.</h4> | <h4>Figure 4 The partly results of a Western blot analysis carried out with an anti-V5 antibody.</h4> | ||
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<h2 id="title2">Flagellar Filament</h2> | <h2 id="title2">Flagellar Filament</h2> | ||
<h3>Plasmid construction</h3> | <h3>Plasmid construction</h3> | ||
− | <p>We have successfully constructed the following 11 parts that have been described in detail in previous design page. <a href="https://2017.igem.org/Team:BNU-China/Design#title3">(Flagellar filament module)</a><br> | + | <p>We have successfully constructed the following 11 parts that have been described in detail in the previous design page. <a href="https://2017.igem.org/Team:BNU-China/Design#title3">(Flagellar filament module)</a><br> |
− | In display module, we constructed and validated the following 6 parts. They are pYD1-FliC <a href="">(BBa_K2220002)</a>, pYD1-XynA<a href="">(BBa_K2220004)</a>, pYD1-PETase<a href="">(BBa_K2220005)</a>, pYD1-BG<a href="">(BBa_K2220007)</a>, pYD1-EG<a href="">(BBa_K2220006)</a>, pYD1-CBH<a href="">(BBa_K2220008)</a>, which means to fuse the target gene sequences with AGA2 gene respectively. And we also constructed pYD1-FilC(eGFP) <a href="">(BBa_K2220003)</a> as our positive control. The length and sequence of each parts have been validated by sequencing. The length validation are presented | + | In display module, we constructed and validated the following 6 parts. They are pYD1-FliC <a href="">(BBa_K2220002)</a>, pYD1-XynA<a href="">(BBa_K2220004)</a>, pYD1-PETase<a href="">(BBa_K2220005)</a>, pYD1-BG<a href="">(BBa_K2220007)</a>, pYD1-EG<a href="">(BBa_K2220006)</a>, pYD1-CBH<a href="">(BBa_K2220008)</a>, which means to fuse the target gene sequences with AGA2 gene respectively. And we also constructed pYD1-FilC(eGFP) <a href="">(BBa_K2220003)</a> as our positive control. The length and sequence of each parts have been validated by sequencing. The length validation are presented below. |
</p> | </p> | ||
<img src="" alt="Sorry, the image is not supported by your browser."> | <img src="" alt="Sorry, the image is not supported by your browser."> | ||
<h4>Figure 5 The electrophoresis images of 6 parts mentioned above.</h4> | <h4>Figure 5 The electrophoresis images of 6 parts mentioned above.</h4> | ||
− | <p>In secretory module,we successfully constructed the following parts: pYCα-FliC-XynA <a href="">(BBa_K22200011)</a>, pYCα-FliC-BG <a href="">(BBa_K2220014)</a>, pYCα-FliC-EG <a href="">(BBa_K2220013)</a>, pYCα-FliC-CBH <a href="">(BBa_K2220015)</a>,and pYCα-FliC-eGFP <a href="">(BBa_K2220003)</a> as positive control. The | + | <p>In secretory module,we successfully constructed the following parts: pYCα-FliC-XynA <a href="">(BBa_K22200011)</a>, pYCα-FliC-BG <a href="">(BBa_K2220014)</a>, pYCα-FliC-EG <a href="">(BBa_K2220013)</a>, pYCα-FliC-CBH <a href="">(BBa_K2220015)</a>,and pYCα-FliC-eGFP <a href="">(BBa_K2220003)</a> as positive control. The lengths and sequences of each part has been validated by sequencing. The length validations are presented below. |
</p> | </p> | ||
<img src="" alt="Sorry, the image is not supported by your browser."> | <img src="" alt="Sorry, the image is not supported by your browser."> | ||
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<h3>Protein expression analysis- Western blot</h3> | <h3>Protein expression analysis- Western blot</h3> | ||
− | <p>The image shows the results of a Western blot analysis carried out with an anti-His antibody.The recombinant proteins are expressed by S.cerevisiae INVSC1 pYCα-FilC(PETase) | + | <p>The image shows the results of a Western blot analysis carried out with an anti-His antibody. The recombinant proteins are expressed by S.cerevisiae INVSC1 pYCα-FilC(PETase) and pYCα-FliC(XynA) respectively. After 24h inducing,the recombinant proteins are extracted and analysed by Western blot. |
</p> | </p> | ||
<img src="https://static.igem.org/mediawiki/2017/f/fb/T-BNU-China-results6new.png" alt="Sorry, the image is not supported by your browser."> | <img src="https://static.igem.org/mediawiki/2017/f/fb/T-BNU-China-results6new.png" alt="Sorry, the image is not supported by your browser."> |
Latest revision as of 09:12, 27 October 2017
Results
Microtubule
Plasmid construction
We have accomplished the construction of 6 main parts whose functions are described respectively in the previous design page. (Microtubule module) They are pYD1-α tubulin (BBa_K2220019), pYD1-β tubulin (BBa_K2220020), pYCα-α tubulin (BBa_K2220022), pYCα-β tubulin (BBa_K2220023), pYCα-mCherry-α tubulin (BBa_K2220024), pYCα-β-tubulin-mGFP (BBa_K2220025) and pYCα-mCherry (BBa_K2220021). All parts have been validated by sequencing.
Figure 1 The electrophoresis image of 6 plasmids.
Protein expression analysis- Fluorescence microscopy
These are the images recorded by the Fluorescence microscope. The engineered yeasts were induced at 30°C for 20 hours. From the image, we can see that our engineered yeasts have successfully expressed our recombinant proteins mCherry-α and mCherry. Moreover, the expression rate of mCherry is almost up to 100%.
Figure 2 Induced 20h in SG-Ura medium;
A,B recipient strain with empty plasmid;
C a bright-field micrograph of S. cerevisiae INVSc1 cells harbouring pYCα–mCherry-α;
D fluorescence micrograph of S. cerevisiae INVSc1 cells harbouring pYCα–mCherry-α;
E a bright-field micrograph of S. cerevisiae INVSc1 cells harbouring pYCα–mCherry;
F fluorescence micrograph of S. cerevisiae INVSc1 cells harbouring pYCα–mCherry;
Protein expression analysis- Western blot
The image shows the results of a Western blot analysis carried out with an anti-V5 antibody. The recombinant proteins are expressed by the engineered yeasts which contain pYCα-alpha, pYCα-beta, pYCα-mCherry and pYCα-mCherry-αtubulin, respectively. After 24h inducing,the recombinant proteins are extracted and analysed by Western blot.
Figure 3 The results of a Western blot analysis carried out with an anti-V5 antibody.
Our engineered yeasts, containing pYD1-β tubulin vector, have been proved to have successfully expressed exogenous βtubulin by Western blot analysis.
Figure 4 The partly results of a Western blot analysis carried out with an anti-V5 antibody.
Flagellar Filament
Plasmid construction
We have successfully constructed the following 11 parts that have been described in detail in the previous design page. (Flagellar filament module)
In display module, we constructed and validated the following 6 parts. They are pYD1-FliC (BBa_K2220002), pYD1-XynA(BBa_K2220004), pYD1-PETase(BBa_K2220005), pYD1-BG(BBa_K2220007), pYD1-EG(BBa_K2220006), pYD1-CBH(BBa_K2220008), which means to fuse the target gene sequences with AGA2 gene respectively. And we also constructed pYD1-FilC(eGFP) (BBa_K2220003) as our positive control. The length and sequence of each parts have been validated by sequencing. The length validation are presented below.
Figure 5 The electrophoresis images of 6 parts mentioned above.
In secretory module,we successfully constructed the following parts: pYCα-FliC-XynA (BBa_K22200011), pYCα-FliC-BG (BBa_K2220014), pYCα-FliC-EG (BBa_K2220013), pYCα-FliC-CBH (BBa_K2220015),and pYCα-FliC-eGFP (BBa_K2220003) as positive control. The lengths and sequences of each part has been validated by sequencing. The length validations are presented below.
Figure 6 The electrophoresis images of 4 parts mentioned above.
Protein expression analysis- Western blot
The image shows the results of a Western blot analysis carried out with an anti-His antibody. The recombinant proteins are expressed by S.cerevisiae INVSC1 pYCα-FilC(PETase) and pYCα-FliC(XynA) respectively. After 24h inducing,the recombinant proteins are extracted and analysed by Western blot.
figure 7 The results of a Western blot analysis carried out with an anti-His antibody.
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