Difference between revisions of "Part:BBa K2315018"
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| + | The HSL receiver TraR from Rhizobium radiobacter activates expression of GFP protein in response to 3OC8-HSL. | ||
| + | This Receiver can be easily replaced by other AHL receivers in our collection. A full collection could be found in: http://2017.igem.org/Team:Shanghaitech/Library | ||
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| + | ==<b>Usage and Biology</b>== | ||
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| + | [[File:T--Shanghaitech--trarfx.jpg|thumb|center|700px|<b>Fig. 1 Genetic Circuit Design</b>]] | ||
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| + | When AHL is added with concentration higher than a critical value, the constitutively expressed TraR will bind to the AHL molecule 3OC8-HSL, dimerize and bind to the pTra regulatory sequence to activate GFP expression. | ||
Revision as of 21:42, 1 November 2017
The HSL receiver TraR from Rhizobium radiobacter activates expression of GFP protein in response to 3OC8-HSL.
This Receiver can be easily replaced by other AHL receivers in our collection. A full collection could be found in: http://2017.igem.org/Team:Shanghaitech/Library
Usage and Biology
File:T--Shanghaitech--trarfx.jpg
Fig. 1 Genetic Circuit Design
When AHL is added with concentration higher than a critical value, the constitutively expressed TraR will bind to the AHL molecule 3OC8-HSL, dimerize and bind to the pTra regulatory sequence to activate GFP expression.