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<h3><center>Packaging Cas9</h3></center></h3> | <h3><center>Packaging Cas9</h3></center></h3> | ||
+ | <p style="padding-top:2%; padding-right: 15%; padding-left:15%; font-size:14px;" class="big">In order to successfully package Cas9 into Outer Membrane Vesicles, we needed a source of OMVs. We transformed our saCas9 encoding plasmids into a hyper-vesiculating strain of E. coli known as JC8031. This strain is genetically engineered to create a large amount of OMVs and as a result, any substance whose concentration is high in the periplasm of the cell would also be expected to exist within the generated OMVs. The Cas9 itself also has a His6 tag attached for identification purposes, as well as a signal sequence meant to direct and secrete the protein into the periplasm.</font></p> | ||
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+ | <h3><center>Packaging Cas9</h3></center></h3> | ||
<p style="padding-top:2%; padding-right: 15%; padding-left:15%; font-size:14px;" class="big">In order to successfully package Cas9 into Outer Membrane Vesicles, we needed a source of OMVs. We transformed our saCas9 encoding plasmids into a hyper-vesiculating strain of E. coli known as JC8031. This strain is genetically engineered to create a large amount of OMVs and as a result, any substance whose concentration is high in the periplasm of the cell would also be expected to exist within the generated OMVs. The Cas9 itself also has a His6 tag attached for identification purposes, as well as a signal sequence meant to direct and secrete the protein into the periplasm.</font></p> | <p style="padding-top:2%; padding-right: 15%; padding-left:15%; font-size:14px;" class="big">In order to successfully package Cas9 into Outer Membrane Vesicles, we needed a source of OMVs. We transformed our saCas9 encoding plasmids into a hyper-vesiculating strain of E. coli known as JC8031. This strain is genetically engineered to create a large amount of OMVs and as a result, any substance whose concentration is high in the periplasm of the cell would also be expected to exist within the generated OMVs. The Cas9 itself also has a His6 tag attached for identification purposes, as well as a signal sequence meant to direct and secrete the protein into the periplasm.</font></p> | ||
Revision as of 01:04, 2 November 2017
Packaging Cas9
In order to successfully package Cas9 into Outer Membrane Vesicles, we needed a source of OMVs. We transformed our saCas9 encoding plasmids into a hyper-vesiculating strain of E. coli known as JC8031. This strain is genetically engineered to create a large amount of OMVs and as a result, any substance whose concentration is high in the periplasm of the cell would also be expected to exist within the generated OMVs. The Cas9 itself also has a His6 tag attached for identification purposes, as well as a signal sequence meant to direct and secrete the protein into the periplasm.
Packaging Cas9
In order to successfully package Cas9 into Outer Membrane Vesicles, we needed a source of OMVs. We transformed our saCas9 encoding plasmids into a hyper-vesiculating strain of E. coli known as JC8031. This strain is genetically engineered to create a large amount of OMVs and as a result, any substance whose concentration is high in the periplasm of the cell would also be expected to exist within the generated OMVs. The Cas9 itself also has a His6 tag attached for identification purposes, as well as a signal sequence meant to direct and secrete the protein into the periplasm.