Team:Paris/Brainstorm ideaeucaplas
From 2009.igem.org
(Difference between revisions)
(→Eucaryotic plasmide) |
|||
Line 4: | Line 4: | ||
==Eucaryotic plasmide== | ==Eucaryotic plasmide== | ||
+ | |||
==the idea == | ==the idea == | ||
+ | |||
This is one of the few idea that came directly out of the box. It was suppose to supply the genetic therapy with a support to the gene insertion so that it won't alter anymore the chromosome of the under treatment cells. Obviously it could also be the place fto insert gene for protecting the orgnanism before infection or disease. | This is one of the few idea that came directly out of the box. It was suppose to supply the genetic therapy with a support to the gene insertion so that it won't alter anymore the chromosome of the under treatment cells. Obviously it could also be the place fto insert gene for protecting the orgnanism before infection or disease. | ||
+ | |||
==how to concretize it== | ==how to concretize it== | ||
+ | |||
We would have need to rebuild every promotor to be eukaryotic one plus the replication origin. | We would have need to rebuild every promotor to be eukaryotic one plus the replication origin. | ||
+ | |||
==approval== | ==approval== | ||
+ | |||
Interesting idea but maybe too ambitious, and we would need to work on eukaryotic cell representing a harsh condition to fullfill. | Interesting idea but maybe too ambitious, and we would need to work on eukaryotic cell representing a harsh condition to fullfill. |
Revision as of 08:53, 27 July 2009
Contents |
Eucaryotic plasmide
the idea
This is one of the few idea that came directly out of the box. It was suppose to supply the genetic therapy with a support to the gene insertion so that it won't alter anymore the chromosome of the under treatment cells. Obviously it could also be the place fto insert gene for protecting the orgnanism before infection or disease.
how to concretize it
We would have need to rebuild every promotor to be eukaryotic one plus the replication origin.
approval
Interesting idea but maybe too ambitious, and we would need to work on eukaryotic cell representing a harsh condition to fullfill.