Team:USP-UNESP-Brazil/Project

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(Plug&Play Plasmid)
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=== Plug&Play Plasmid ===
=== Plug&Play Plasmid ===
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{{:Team:USP-UNESP-Brazil/Templates/LImage | image=Plugnplay.jpg | caption=Plug your PCR and play your bacteria! | size=300px}}
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{{:Team:USP-UNESP-Brazil/Templates/LImage | image=Plugnplay.jpg | caption=Plug your PCR and play your gene in the bacteria! | size=300px}}
The synthetic biology fields needs techniques to produce biological standardize parts in a high-throughput manner, which can later be used for modifying/hacking systems. To help in this task we developed a project that aims to build a prototype for a machine called Plug&Play, it express any protein helped by the Cre-Recombinase system. The Plug&Play plasmid has a mutated recombination site (lox71) recognized by the Cre-recombinase enzyme. The Cre recombination mechanism will strategically inserts a PCR-amplified DNA at the lox71 site, and readily express the protein once the receptor plasmid already posses all the necessary protein expression machinery. The plasmid has also a resistance gene to ampicillin that maintains it inside the cell as long as the antibiotic is applied in the culture medium. This is a high-throughput system for expressing proteins that allows putative (or new build) genes prospection, it was created for being an open source technology that any laboratory/hacker can use for screening candidate genes libraries.
The synthetic biology fields needs techniques to produce biological standardize parts in a high-throughput manner, which can later be used for modifying/hacking systems. To help in this task we developed a project that aims to build a prototype for a machine called Plug&Play, it express any protein helped by the Cre-Recombinase system. The Plug&Play plasmid has a mutated recombination site (lox71) recognized by the Cre-recombinase enzyme. The Cre recombination mechanism will strategically inserts a PCR-amplified DNA at the lox71 site, and readily express the protein once the receptor plasmid already posses all the necessary protein expression machinery. The plasmid has also a resistance gene to ampicillin that maintains it inside the cell as long as the antibiotic is applied in the culture medium. This is a high-throughput system for expressing proteins that allows putative (or new build) genes prospection, it was created for being an open source technology that any laboratory/hacker can use for screening candidate genes libraries.

Revision as of 10:40, 26 September 2012