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Team:Newcastle
From 2013.igem.org
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As outreach we reflected upon our project's implications with stakeholders, created a BioGame for the public and developed a workshop for those new to modelling. Finally, we evaluated the relationship between synthetic biology and architecture. | As outreach we reflected upon our project's implications with stakeholders, created a BioGame for the public and developed a workshop for those new to modelling. Finally, we evaluated the relationship between synthetic biology and architecture. | ||
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We have created a novel chassis for Synthetic Biology, one that is not hindered by its cell wall. These cells are called “L-Forms” or as we prefer to call them: naked bacteria. Even better than that though, we’ve already begun putting them to good use! | We have created a novel chassis for Synthetic Biology, one that is not hindered by its cell wall. These cells are called “L-Forms” or as we prefer to call them: naked bacteria. Even better than that though, we’ve already begun putting them to good use! | ||
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Many of the basic molecular biology processes are made easier without a cell wall getting in the way. Bacteria with a cell wall are harder to get things into and out of, harder to fuse together and won’t mould into different shapes. Our main BioBrick allows us not only to remove the cell wall, but to switch it back on again, at the flick of a switch, ensuring the bacterium’s dignity remains intact! | Many of the basic molecular biology processes are made easier without a cell wall getting in the way. Bacteria with a cell wall are harder to get things into and out of, harder to fuse together and won’t mould into different shapes. Our main BioBrick allows us not only to remove the cell wall, but to switch it back on again, at the flick of a switch, ensuring the bacterium’s dignity remains intact! | ||
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We can fuse L-forms together and recombine their genomes. Yep, our naked bacteria undergo sexual reproduction! ;) ! This can be used to shuffle genomes and perform directed evolution to produce bacteria with improved phenotypes. | We can fuse L-forms together and recombine their genomes. Yep, our naked bacteria undergo sexual reproduction! ;) ! This can be used to shuffle genomes and perform directed evolution to produce bacteria with improved phenotypes. | ||
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L-forms have been shown inhabit plants, we didn’t want our naked bacteria to feel left out so we put them inside plants too. They could provide natural resistance to the plant from pathogens, and could be used to deliver useful molecules. | L-forms have been shown inhabit plants, we didn’t want our naked bacteria to feel left out so we put them inside plants too. They could provide natural resistance to the plant from pathogens, and could be used to deliver useful molecules. | ||
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naked bacteria cannot live outside of an osmotically suitable environment; as soon as they leave a plant or the lab, they’ll burst. They essentially have an inbuilt killswitch. You won’t be finding any of our naked bacteria getting dirty in soil. | naked bacteria cannot live outside of an osmotically suitable environment; as soon as they leave a plant or the lab, they’ll burst. They essentially have an inbuilt killswitch. You won’t be finding any of our naked bacteria getting dirty in soil. | ||
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Revision as of 13:08, 2 October 2013
Our Project
We have created a novel chassis for Synthetic Biology, one that is not hindered by its cell wall. These cells are called “L-Forms” or as we prefer to call them: naked bacteria. Even better than that though, we’ve already begun putting them to good use!
Many of the basic molecular biology processes are made easier without a cell wall getting in the way. Bacteria with a cell wall are harder to get things into and out of, harder to fuse together and won’t mould into different shapes. Our main BioBrick allows us not only to remove the cell wall, but to switch it back on again, at the flick of a switch, ensuring the bacterium’s dignity remains intact!
We can fuse L-forms together and recombine their genomes. Yep, our naked bacteria undergo sexual reproduction! ;) ! This can be used to shuffle genomes and perform directed evolution to produce bacteria with improved phenotypes.
L-forms have been shown inhabit plants, we didn’t want our naked bacteria to feel left out so we put them inside plants too. They could provide natural resistance to the plant from pathogens, and could be used to deliver useful molecules.
naked bacteria cannot live outside of an osmotically suitable environment; as soon as they leave a plant or the lab, they’ll burst. They essentially have an inbuilt killswitch. You won’t be finding any of our naked bacteria getting dirty in soil.
