Team:Wageningen UR

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The discovery of secondary metabolites has had a profound influence on the development of human medicines. The production of these secondary metabolites in most cases involves a large backbone enzyme that contains multiple catalytic domains and whose genetics is rather complex. One of our goals is to establish a modular system of domain shuffling to generate a plethora of novel enzymes with new and improved functionalities. The possibilities are endless as there are various different domains from fungi that can be added, removed, reordered, exchanged or even customized in this synthetic biology approach. The production of lovastatin currently is in the fungi Aspergillus terreus, which also produces less desirable toxins. Thus try to transfer the entire lovastatin metabolic pathway from A. terreus into another microorganism like Aspergillus niger is one aspect of our goals. The goals also includs host engineering and biosensor in A. niger.

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Bronze medalBronze medal

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Present a poster and a talk at the iGEM Jamboree

Document at least one new standard BioBrick Part or Device used in your project/central to your project and submit this part to the iGEM Registry

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Experimentally validate that at least one new BioBrick Part or Device of your own design and construction works as expected

Submit this new part to the iGEM Parts Registry

Your project may have implications for the environment, security, safety and ethics and/or ownership and sharing. Describe one or more ways in which these or other broader implications have been taken into consideration in the design and execution of your project

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Help any registered iGEM team from another school or institution by, for example, characterizing a part, debugging a construct, or modeling or simulating their system

Your project may have implications for the environment, security, safety and ethics and/or ownership and sharing. Describe a novel approach that your team has used to help you and others consider these aspects of the design and outcomes of synthetic biology efforts. Please justify its novelty and how this approach might be adapted and scaled for others to use


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