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Team:Bologna
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| - | The project aims to design a new device to control the synthesis of a protein in | + | The project aims to design a new device to control the synthesis of a protein in <i>Escherichia coli</i> regardless of the protein to be controlled. This "general-purpose" standard device acts on translation to allow a faster silencing of protein expression if compared to standard regulated promoters. We named this device <b>T-Rex</b> (<b>T</b>rans <b>R</b>epressor of <b>Ex</b>pression). |
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The device consists of two new BioBricks: | The device consists of two new BioBricks: | ||
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<li><font color="#000080"><b>CIS-repressing</b></font>, to be assembled upstream of the target coding sequence. | <li><font color="#000080"><b>CIS-repressing</b></font>, to be assembled upstream of the target coding sequence. | ||
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<li><font color="#000080"><b>TRANS-repressor</b></font>, complementary to the CIS-repressing and placed under the control of a different promoter. | <li><font color="#000080"><b>TRANS-repressor</b></font>, complementary to the CIS-repressing and placed under the control of a different promoter. | ||
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| - | CIS-repressing and TRANS-repressor were | + | CIS-repressing and TRANS-repressor sequences were seeked by [[Team:Bologna/Software#1|BASER]] software. |
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| - | Transcription of the target gene produces a mRNA strand, starting with the Cis element, which is translated into proteins by ribosome (see Fig 1, right panel). Trans’ promoter induction produces a transcript that binds with the Cis part. The <b>RNA duplex</b> prevents ribosome from binding to RBS, <b>repressing protein synthesis</b>. Thus, the TRANS-repressor amount regulates the gene mRNA translation rate (see Fig 1, left panel) | + | Transcription of the target gene produces a mRNA strand, starting with the Cis element, which is translated into proteins by ribosome (<i>see Fig. 1, right panel</i>). Trans’ promoter induction produces a transcript that binds with the Cis part. The <b>RNA duplex</b> prevents ribosome from binding to RBS, <b>repressing protein synthesis</b>. Thus, the TRANS-repressor amount regulates the gene mRNA translation rate (<i>see Fig. 1, left panel</i>) |
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| - | [[Image:project3b.png|center|950px|thumb|<center> | + | [[Image:project3b.png|center|950px|thumb|<center>Figure 1 - T-Rex device</center>]] |
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| - | [[Image:circuit2.jpg|center|900px|thumb|<center> | + | [[Image:circuit2.jpg|center|900px|thumb|<center>Figure 2 - Genetic Circuit</center>]] |
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Revision as of 17:12, 21 October 2009
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Project Summary
Which is our idea?
The project aims to design a new device to control the synthesis of a protein in Escherichia coli regardless of the protein to be controlled. This "general-purpose" standard device acts on translation to allow a faster silencing of protein expression if compared to standard regulated promoters. We named this device T-Rex (Trans Repressor of Expression).
How does T-Rex work?
The device consists of two new BioBricks:
CIS-repressing and TRANS-repressor sequences were seeked by BASER software.
Transcription of the target gene produces a mRNA strand, starting with the Cis element, which is translated into proteins by ribosome (see Fig. 1, right panel). Trans’ promoter induction produces a transcript that binds with the Cis part. The RNA duplex prevents ribosome from binding to RBS, repressing protein synthesis. Thus, the TRANS-repressor amount regulates the gene mRNA translation rate (see Fig. 1, left panel)
How can we test the device?
In order to test and characterize our T-REX device, we developed the following genetic circuit (Fig 2):
The T-REX device is proposed as a universal and fast switch in synthetic gene circuits.
More details about our work in the Project section.
Acknowledgements
- Cultural Association San Sebastiano
