Team:EPF-Lausanne/Our Project

From 2011.igem.org

(Difference between revisions)
(Background & Motivations)
(Goal)
Line 17: Line 17:
-
Our project’s outcome will be a method to derive pairs of TFs and DNA binding sites meeting selection criteria for orthogonality, affinity and specificity. It will include setting a selection scheme that allows for high throughput testing identification of functional TF-consensus sequence pairs in vitro and in vivo. We plan to use bacterial culture in parallel chemostat platforms and MITOMI to screen a library of TFs against a set of consensus sequences.  
+
Our project’s outcome will be a method to derive pairs of TFs and DNA binding sites meeting selection criteria for orthogonality, affinity and specificity. It will include setting a selection scheme that allows for high-throughput identification of functional TF-consensus sequence pairs in vitro and in vivo. We plan to use bacterial cultures in parallel with chemostat platforms and MITOMI to screen a library of TFs against a set of consensus sequences.  
Our research will begin with the tetracycline repressor (TetR), a transcription factor which down-regulates (represses) the transcription of the adjacent gene. This protein and its mutants are often used by synthetic biologists “as control elements to regulate gene expression”  due to their detailed characterisation, but also because of the limited number of proteins available for use in the repressor-TF class.  
Our research will begin with the tetracycline repressor (TetR), a transcription factor which down-regulates (represses) the transcription of the adjacent gene. This protein and its mutants are often used by synthetic biologists “as control elements to regulate gene expression”  due to their detailed characterisation, but also because of the limited number of proteins available for use in the repressor-TF class.  

Revision as of 08:16, 13 September 2011