Difference between revisions of "Ribozyme vesicles"
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== Goals == | == Goals == | ||
− | Create the "simplest possible protocell" capable of having a self-replicating informational molecule and a mechanism for spatial localization such as compartmentalization | + | *Create the "simplest possible protocell" capable of having a self-replicating informational molecule and a mechanism for spatial localization such as compartmentalization |
− | Use membrane boundary that can grow and divide with being too complex and that can allow passive diffusion of ion and substrates | + | *Use membrane boundary that can grow and divide with being too complex and that can allow passive diffusion of ion and substrates |
− | Encapsulation of catalytic (self-replicating) RNA molecules within self-replicating membrane vesicles. | + | *Encapsulation of catalytic (self-replicating) RNA molecules within self-replicating membrane vesicles. |
<hr> | <hr> | ||
+ | |||
== '''[http://gcat.davidson.edu/GcatWiki/index.php/Applications_of_Ribozymes_in_Synthetic_Systems_-_Danielle_Jordan Main Page]''' == | == '''[http://gcat.davidson.edu/GcatWiki/index.php/Applications_of_Ribozymes_in_Synthetic_Systems_-_Danielle_Jordan Main Page]''' == |
Revision as of 06:22, 6 December 2007
Goals
- Create the "simplest possible protocell" capable of having a self-replicating informational molecule and a mechanism for spatial localization such as compartmentalization
- Use membrane boundary that can grow and divide with being too complex and that can allow passive diffusion of ion and substrates
- Encapsulation of catalytic (self-replicating) RNA molecules within self-replicating membrane vesicles.