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Team:Bonn
From 2013.igem.org
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light dependend control of protein activity per protein degradation.</br> | light dependend control of protein activity per protein degradation.</br> | ||
Harnessing the ClpXP protease system of prokaryotes enables degradation of a peptid tag (ssrA) fused | Harnessing the ClpXP protease system of prokaryotes enables degradation of a peptid tag (ssrA) fused | ||
| - | protein upon induction with the adaptor protein SspB.Using a Split version of SspB, protein degradation is | + | protein upon induction with the adaptor protein SspB. Using a Split version of SspB, protein degradation is |
| - | activated through heterodimerisation of both SspB parts. | + | activated through heterodimerisation of both SspB parts.We utilize light dependent heterodimerisation to eventually obtain light inducible degradation. </br> |
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Modelling of the light dependency of protein degradation will even make simple and accurate control of | Modelling of the light dependency of protein degradation will even make simple and accurate control of | ||
protein activity for any desired level of activity possible.</br> | protein activity for any desired level of activity possible.</br> | ||
Revision as of 10:04, 23 June 2013
Regulating protein activity is important throughout lifescience research. Even though there are several
systems available for regulation of proteins all suffer from certain disadvantages.
Aiming to overcome all of these drawbacks we engineer a novel system for
light dependend regulation of protein degradation resulting in a rapid change of protein activity.
Our system can be not only of great importance for fundamental science to investigate protein function but
also for accurate control of bioreactors and biological machines.
Project
Making versatile control of biological machines easily possible for everybody we engineer a system for
light dependend control of protein activity per protein degradation.
Harnessing the ClpXP protease system of prokaryotes enables degradation of a peptid tag (ssrA) fused
protein upon induction with the adaptor protein SspB. Using a Split version of SspB, protein degradation is
activated through heterodimerisation of both SspB parts.We utilize light dependent heterodimerisation to eventually obtain light inducible degradation.
Modelling of the light dependency of protein degradation will even make simple and accurate control of
protein activity for any desired level of activity possible.
As a proof of principle we investigate degradation of the fluorescent reporter protein mCherry.
Find out more about
split SspB
light inducible heterodimerisation
our protocols
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Background
To enable protein degradation we decided on one proteases system (ClpXP), which allows specific degradation
of proteins, is highly conserved and well established.
For light dependency we compared several systems to finally find the best suited one. We created a
comprehensive overview of all systems making artificially light control possible so that everyone can
easily choose the optimal system for his approach.
Find out more about
the ClpXP protease System
our Comparison of several light sensitive systems
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Human Practice
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Team
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