Team:British Columbia
From 2012.igem.org
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<p align=center><font face=arial narrow size=4><b>Foundational Advance: BioBricks to BioRooms to BioFactories</b></font></p><font face=arial narrow> | <p align=center><font face=arial narrow size=4><b>Foundational Advance: BioBricks to BioRooms to BioFactories</b></font></p><font face=arial narrow> | ||
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BioBrick standard biological parts are DNA sequences of defined structure and function designed to be incorporated into living cells to construct new biological systems. Synthetic biologists have been building BioRooms by engineering single microbes that contain purposeful compositions of BioBricks to perform tasks such as bio-sensing, bio-degradation, bio-transformation or bio-synthesis. However, most of these BioRooms are designed to be self-containing, self-sufficient systems in stark contrast to how microbes normally exist in community in natural environments. </br></br><b>The UBC iGEM 2012 team sets a foundational advance by engineering microbial BioRooms that are compatible with each other and can be regulated based on their interdependencies. In the future, it may be possible to mix and match BioRooms to create BioFactories with novel synergistic metabolisms.</br></br></b> | BioBrick standard biological parts are DNA sequences of defined structure and function designed to be incorporated into living cells to construct new biological systems. Synthetic biologists have been building BioRooms by engineering single microbes that contain purposeful compositions of BioBricks to perform tasks such as bio-sensing, bio-degradation, bio-transformation or bio-synthesis. However, most of these BioRooms are designed to be self-containing, self-sufficient systems in stark contrast to how microbes normally exist in community in natural environments. </br></br><b>The UBC iGEM 2012 team sets a foundational advance by engineering microbial BioRooms that are compatible with each other and can be regulated based on their interdependencies. In the future, it may be possible to mix and match BioRooms to create BioFactories with novel synergistic metabolisms.</br></br></b> | ||
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- | + | <p align=center><img src="https://static.igem.org/mediawiki/2012/d/d8/Ubcigemslide4.jpg"></br> | |
- | + | <b>Objective 1:</br>Creation of Tunable Consortia</div></p> | |
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- | + | <img src="https://static.igem.org/mediawiki/2012/f/ff/Dsz_Consortium.png" width=300px></br><b>Objective 2:</br>Distribution of Desulfurization Pathway</div> | |
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Latest revision as of 04:01, 4 October 2012
Figure 1. Synthetic biology has tackled many different kinds of problems
Foundational Advance: BioBricks to BioRooms to BioFactories
BioBrick standard biological parts are DNA sequences of defined structure and function designed to be incorporated into living cells to construct new biological systems. Synthetic biologists have been building BioRooms by engineering single microbes that contain purposeful compositions of BioBricks to perform tasks such as bio-sensing, bio-degradation, bio-transformation or bio-synthesis. However, most of these BioRooms are designed to be self-containing, self-sufficient systems in stark contrast to how microbes normally exist in community in natural environments. The UBC iGEM 2012 team sets a foundational advance by engineering microbial BioRooms that are compatible with each other and can be regulated based on their interdependencies. In the future, it may be possible to mix and match BioRooms to create BioFactories with novel synergistic metabolisms.Objective 1:Creation of Tunable Consortia
Objective 2:Distribution of Desulfurization Pathway