Difference between revisions of "Team:TUDelft/PartsTest"
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| − | <p> | + | <p>Engineering non-model organisms requires discovery of organism specific parts or re-tuning of parts characterized in model organisms. Our part collection provides an array of modular cloning (MoClo) compatible parts that can be used for predictable expression of genes across different bacterial species. To overcome the need to identify parts for different microbial hosts, our collection provides parts of the phi29 replication machinery to establish orthogonal replication. Furthermore, the collection consists of regulatory elements (promoters, RBSs, terminators) that work in a plethora of bacterial species. To insulate the behaviour of genetic circuits from variations associated with change in microbial context, our collection offers parts essential to incorporate an incoherent feed forward loop (iFFL). iFFL ensures that the gene of interest expression is robust to changes in copy number, transcription and translation. Our collection acts as a platform to future iGEM teams for effortless engineering of their bacteria of choice. </p> |
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Revision as of 23:40, 6 October 2019
Engineering non-model organisms requires discovery of organism specific parts or re-tuning of parts characterized in model organisms. Our part collection provides an array of modular cloning (MoClo) compatible parts that can be used for predictable expression of genes across different bacterial species. To overcome the need to identify parts for different microbial hosts, our collection provides parts of the phi29 replication machinery to establish orthogonal replication. Furthermore, the collection consists of regulatory elements (promoters, RBSs, terminators) that work in a plethora of bacterial species. To insulate the behaviour of genetic circuits from variations associated with change in microbial context, our collection offers parts essential to incorporate an incoherent feed forward loop (iFFL). iFFL ensures that the gene of interest expression is robust to changes in copy number, transcription and translation. Our collection acts as a platform to future iGEM teams for effortless engineering of their bacteria of choice.
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Best part
♥ Name Description Designer ♥ BBa_K2918000 blablablablablablablablablablablabla TU Delft 2019
Hello
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Best composite part
♥ Name Description Designer ♥ BBa_K2918000 blablablablablablablablablablablabla TU Delft 2019 -
Collection
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Basic
♥ Name Type Description Designer Length ♥ BBa_K2918005 Regulatory 0.1 T7 promotor Hafsa Akaouche 55 ♥ BBa_K2918023 Composite 0.1 T7 promotor - Universal RBS - Φ29 DSB - T7 terminator TUDelft2019 530 BBa_K2918006 Regulatory 0.5 T7 promoter Hafsa Akaouche 55 ♥ BBa_K2918000 Coding DNAP TUDelft2019 1748 BBa_K2918004 Coding eGFP Hafsa Akaouche 707 BBa_K2918003 Coding p6 - DSB of Φ29 bacteriophage TUDelft2019 344 ♥ BBa_K2918001 Coding TP TUDelft2019 830 BBa_K2918014 RBS Universal RBS Hafsa Akaouche 51 ♥ BBa_K2918007 Terminator Wild type T7 terminator TUDelft2019 56 ♥ BBa_K2918002 Coding Φ29 SSB Hafsa Akaouche 404
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Basic