Team:Bologna

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The aim of our project is the design of a new device to control the synthesis of any protein of interest. This "general-purpose" standard device, implemented in <i>E. coli</i>, acts at the translational level to allow a switch in protein expression faster than transcriptional promoter regulation. 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 aim of our project is the design of a new device to control the synthesis of any protein of interest. This "general-purpose" standard device, implemented in <i>E. coli</i>, acts at the translational level to allow a switch in protein expression faster than transcriptional promoter regulation. 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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'''How T-Rex works'''
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'''How T-REX works'''
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Transcription of the target gene yields a mRNA strand - containing the CIS-repressing sequence at its 5' end - available for translation into protein by ribosomes (<i>see Fig. 1, right panel</i>). Induction of the promoter controlling the TRANS coding sequence, releases a transcript complementary to the CIS mRNA sequence. The TRANS/CIS <b>RNA duplex</b> prevents ribosomes from binding to RBS on target mRNA, thus <b>repressing protein synthesis</b>. The amount of the TRANS-repressor regulates the rate of translation of the target mRNA (<i>see Fig. 1, left panel</i>)
Transcription of the target gene yields a mRNA strand - containing the CIS-repressing sequence at its 5' end - available for translation into protein by ribosomes (<i>see Fig. 1, right panel</i>). Induction of the promoter controlling the TRANS coding sequence, releases a transcript complementary to the CIS mRNA sequence. The TRANS/CIS <b>RNA duplex</b> prevents ribosomes from binding to RBS on target mRNA, thus <b>repressing protein synthesis</b>. The amount of the TRANS-repressor regulates the rate of translation of the target mRNA (<i>see Fig. 1, left panel</i>)
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[[Image:project3b.png|center|950px|thumb|<center>Figure 1 - T-Rex device</center>]]
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[[Image:project3b.png|center|950px|thumb|<center>Figure 1 - T-REX device</center>]]
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= Acknowledgements =
= Acknowledgements =
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Revision as of 20:43, 21 October 2009

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Project Summary


Our idea

The aim of our project is the design of a new device to control the synthesis of any protein of interest. This "general-purpose" standard device, implemented in E. coli, acts at the translational level to allow a switch in protein expression faster than transcriptional promoter regulation. We named this device T-REX (Trans Repressor of EXpression).


How T-REX works


The device consists of two new BioBricks:

  • CIS-repressing, to be assembled upstream of the target coding sequence.
  • TRANS-repressor, complementary to the CIS-repressing and placed under the control of a different promoter.

CIS-repressing and TRANS-repressor sequences were designed by BASER software.

Transcription of the target gene yields a mRNA strand - containing the CIS-repressing sequence at its 5' end - available for translation into protein by ribosomes (see Fig. 1, right panel). Induction of the promoter controlling the TRANS coding sequence, releases a transcript complementary to the CIS mRNA sequence. The TRANS/CIS RNA duplex prevents ribosomes from binding to RBS on target mRNA, thus repressing protein synthesis. The amount of the TRANS-repressor regulates the rate of translation of the target mRNA (see Fig. 1, left panel)

Figure 1 - T-REX device



How we can test the device


In order to test and characterize our T-REX device, we developed the following genetic circuit (Fig 2):

Figure 2 - Genetic Circuit




More details about our work are reported in the Project section.


Acknowledgements


  • [http://www.unibo.it/Portale/default.htm University of Bologna]


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  • [http://serinar.criad.unibo.it Ser.In.Ar. Cesena]


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  • Cultural Association San Sebastiano
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