Team:Oxford/alternatives to microcompartments
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<h1>Introduction: collaboration with the Melbourne team and their star peptide</h1> | <h1>Introduction: collaboration with the Melbourne team and their star peptide</h1> | ||
The degradation pathway of DCM by DcmA produces a number of intermediates. Some of these, such as formaldehyde, are suspected to be toxic to our host bacteria above certain concentrations. Alongside using microcompartments for our project, we have also collaborated with UniMelb iGEM and considered attaching our different enzymes to the arms of a star peptide <a href="https://2014.igem.org/Team:Melbourne"> | The degradation pathway of DCM by DcmA produces a number of intermediates. Some of these, such as formaldehyde, are suspected to be toxic to our host bacteria above certain concentrations. Alongside using microcompartments for our project, we have also collaborated with UniMelb iGEM and considered attaching our different enzymes to the arms of a star peptide <a href="https://2014.igem.org/Team:Melbourne"> | ||
- | (link to Melbourne wiki here)</a> . | + | (link to Melbourne wiki here)</a> . Doing so would increase the likelihood that the reaction product of the first enzyme encounters the second enzyme in the pathway rapidly due to their proximity, therefore preventing the buildup of metabolic intermediates. |
</div> | </div> |
Revision as of 20:06, 30 September 2014
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