Team:Freiburg/Description

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We used the LovTAP protein designed by Strickland et al. to express a protein with blue light (470nm). The LovTAP consists of the photoactive LOV2 domain of ''Avena sativa'' phototropin1 and the TrpR domain of ''E.coli'' as the output module. LOV2 (residues 404-543) is ligated via its carboxyl-terminal Jα-helix to a succession of 13 amino-terminal truncations of TrpR (residues 11-108).
We used the LovTAP protein designed by Strickland et al. to express a protein with blue light (470nm). The LovTAP consists of the photoactive LOV2 domain of ''Avena sativa'' phototropin1 and the TrpR domain of ''E.coli'' as the output module. LOV2 (residues 404-543) is ligated via its carboxyl-terminal Jα-helix to a succession of 13 amino-terminal truncations of TrpR (residues 11-108).
The shared helix acts as a rigid lever arm and the overlap is most readily relieved by the disruption of contact between the shared helix and one domain or the other. The helical contacts are integral to the structure of the domains, their disruption will cause a global shift in the comformational ensemble. Photoexcitation changes the conformational ensemble of the proteins and also changes the stability of the helix-domain contacts. This change shifts the relative affinity of the shared helix for each of the two domains. Photoexcitation sensed by one domain allows allosterically propagation to the other domain.
The shared helix acts as a rigid lever arm and the overlap is most readily relieved by the disruption of contact between the shared helix and one domain or the other. The helical contacts are integral to the structure of the domains, their disruption will cause a global shift in the comformational ensemble. Photoexcitation changes the conformational ensemble of the proteins and also changes the stability of the helix-domain contacts. This change shifts the relative affinity of the shared helix for each of the two domains. Photoexcitation sensed by one domain allows allosterically propagation to the other domain.
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[[File:Freiburg-2011-bluelight3.jpg|left|thumb|500px]]
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In the light state the LovTAP binds to the operator DNA and inhibits the gene expression.  To avoid this inhibition, we cloned a Not-Gate after the LovTAP.  Not-Gate is like an inverter, because it changes the input to its opposite. The Not-Gate consists of a tetracycline repressor and a TetR repressible promotor . In the light state the LovTAP binds to operators DNA and inhibits the expression of tetracycline repressor  and the TetR promotor is active. In the dark state the tryptophan repressor is expressed and inhibits the expression of the protein of interest.
In the light state the LovTAP binds to the operator DNA and inhibits the gene expression.  To avoid this inhibition, we cloned a Not-Gate after the LovTAP.  Not-Gate is like an inverter, because it changes the input to its opposite. The Not-Gate consists of a tetracycline repressor and a TetR repressible promotor . In the light state the LovTAP binds to operators DNA and inhibits the expression of tetracycline repressor  and the TetR promotor is active. In the dark state the tryptophan repressor is expressed and inhibits the expression of the protein of interest.
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[[File:Freiburg-2011-bluelight1.jpg|600px]]
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[[File:Freiburg-2011-bluelight1.jpg|thumb|600px]]
==<span style="color:red;">Red light receptor</span>==
==<span style="color:red;">Red light receptor</span>==

Revision as of 20:02, 18 September 2011


This is the wiki page
of the Freiburger student
team competing for iGEM 2011.
Thank you for your interest!