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Team:Groningen/Project/secretion
From 2013.igem.org
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<h1>Silk production</h1> | <h1>Silk production</h1> | ||
| + | <img src="https://static.igem.org/mediawiki/2013/e/e9/Silk_gene.png" width="50%" > | ||
| + | <br> | ||
Figure 2: schematic drawing of natural silk | Figure 2: schematic drawing of natural silk | ||
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| + | <p> | ||
The spider silk we used is the so called dragline silk from the Argiope aurantia (MaSp2) from Brookes et al (2008). It is the strongest silk produced inside the spider. The spider silk consists out of a big repetitive domain (around 2500 base pairs) with an N and a C terminus (figure 2 b). (write something about figure 2a as well of crop the image). | The spider silk we used is the so called dragline silk from the Argiope aurantia (MaSp2) from Brookes et al (2008). It is the strongest silk produced inside the spider. The spider silk consists out of a big repetitive domain (around 2500 base pairs) with an N and a C terminus (figure 2 b). (write something about figure 2a as well of crop the image). | ||
| - | + | </p> | |
| - | our spider silk | + | <p> |
| + | <h2>our spider silk</h2> | ||
We developed 12 different types of spider silk (Link towards biobricks and check the number) (figure 3). We have one spider silk protein with a N and C terminus, a spider silk without a N and C terminus and a spidersilk without one block (explain the difference). A codon optimization script was developed to codon optimize the spider silk for b. subtilis. Codon optimization (state why we did codon optimization and link towards the codon optimazation page on the wiki for all the details). Every silk gene was codon optimized twice with different results. All the codon optimized silk genes were ordered and made synthetically (figure 4). | We developed 12 different types of spider silk (Link towards biobricks and check the number) (figure 3). We have one spider silk protein with a N and C terminus, a spider silk without a N and C terminus and a spidersilk without one block (explain the difference). A codon optimization script was developed to codon optimize the spider silk for b. subtilis. Codon optimization (state why we did codon optimization and link towards the codon optimazation page on the wiki for all the details). Every silk gene was codon optimized twice with different results. All the codon optimized silk genes were ordered and made synthetically (figure 4). | ||
| + | </p> | ||
| + | <br> | ||
Figure 3, our spider silks | Figure 3, our spider silks | ||
| - | + | <br> | |
| - | + | <br> | |
| - | + | <img src="https://static.igem.org/mediawiki/2013/7/78/Our_Silks.png" width="50%" > | |
| - | + | <br> | |
Figure 4: Not sure if this image needs to be on our site, if so please explain thoroughly. | Figure 4: Not sure if this image needs to be on our site, if so please explain thoroughly. | ||
The silk genes are provided with an signal peptide and a strep tag. The signal peptide will ensure the secretion of silk by the natural pathways of b. subtilis (figure 5). The strep tag will be used for our coating mechanism. | The silk genes are provided with an signal peptide and a strep tag. The signal peptide will ensure the secretion of silk by the natural pathways of b. subtilis (figure 5). The strep tag will be used for our coating mechanism. | ||
| + | <br> | ||
| + | <br> | ||
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| + | <img src="https://static.igem.org/mediawiki/igem.org/8/82/Sec_bsub.gif" width="401" height="596"></img> | ||
| + | <br> | ||
Figure 5: the secretion pathway of silk | Figure 5: the secretion pathway of silk | ||
</html> | </html> | ||
Revision as of 11:16, 10 September 2013
Silk production
Figure 2: schematic drawing of natural silk
The spider silk we used is the so called dragline silk from the Argiope aurantia (MaSp2) from Brookes et al (2008). It is the strongest silk produced inside the spider. The spider silk consists out of a big repetitive domain (around 2500 base pairs) with an N and a C terminus (figure 2 b). (write something about figure 2a as well of crop the image).
our spider silk
We developed 12 different types of spider silk (Link towards biobricks and check the number) (figure 3). We have one spider silk protein with a N and C terminus, a spider silk without a N and C terminus and a spidersilk without one block (explain the difference). A codon optimization script was developed to codon optimize the spider silk for b. subtilis. Codon optimization (state why we did codon optimization and link towards the codon optimazation page on the wiki for all the details). Every silk gene was codon optimized twice with different results. All the codon optimized silk genes were ordered and made synthetically (figure 4).Figure 3, our spider silks
Figure 4: Not sure if this image needs to be on our site, if so please explain thoroughly. The silk genes are provided with an signal peptide and a strep tag. The signal peptide will ensure the secretion of silk by the natural pathways of b. subtilis (figure 5). The strep tag will be used for our coating mechanism.
Figure 5: the secretion pathway of silk
