Team:EPF-Lausanne/Our Project

From 2011.igem.org

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(Goal)
(Background & Motivations)
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Transcription is the first step of gene expression that can be regulated. Key elements of this regulation are proteins recognising and binding specific DNA sequences that either recruit the full  transcription machinery or prevent it from assembling on the DNA. It is this class of proteins, called transcription factors (TFs), that we intend to engineer.
Transcription is the first step of gene expression that can be regulated. Key elements of this regulation are proteins recognising and binding specific DNA sequences that either recruit the full  transcription machinery or prevent it from assembling on the DNA. It is this class of proteins, called transcription factors (TFs), that we intend to engineer.
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Existing DNA binding proteins can be a starting point for developing these new TFs. By changing their residues it is possible to modify the affinity of these proteins to a specific binding site and interact with the activation or repression mechanisms of the downstream gene transcription. Investigating these effects can improve our understanding of how the residue composition affects the TF's ability to recognise a given DNA consensus sequence.  
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Existing DNA binding proteins can be a starting point for developing these new TFs. By changing their residues it is possible to modify the affinity of these proteins for a specific binding site and alter how they interact with the activation or repression mechanisms of the downstream gene transcription. Investigating these effects can improve our understanding of how the residue composition affects the TF's ability to recognise a given DNA consensus sequence.  
Engineering new transcription factors will not only give us a better idea of how they work but also extend the tool kit of the synthetic biologist. Within synthetic biology, TFs are used to design biological circuits where they act as building blocks for reporters, inverters, logic functions and switches . Extending the tool kit with new TFs will allow combinations of the devices that today share the same regulatory elements and thus cannot be used in the same system.
Engineering new transcription factors will not only give us a better idea of how they work but also extend the tool kit of the synthetic biologist. Within synthetic biology, TFs are used to design biological circuits where they act as building blocks for reporters, inverters, logic functions and switches . Extending the tool kit with new TFs will allow combinations of the devices that today share the same regulatory elements and thus cannot be used in the same system.

Revision as of 09:56, 21 September 2011