Difference between revisions of "Team:Groningen"

Line 14: Line 14:
 
transferring it in a safe way. The goal is to safely send a key  
 
transferring it in a safe way. The goal is to safely send a key  
 
and an encrypted message in two separate spore systems of  
 
and an encrypted message in two separate spore systems of  
Bacillus subtilis. Digital and biological protection layers  
+
<em>Bacillus subtilis</em>. Digital and biological protection layers  
 
will prevent this information from being captured by  
 
will prevent this information from being captured by  
 
unauthorized parties. The message is protected by computational  
 
unauthorized parties. The message is protected by computational  

Revision as of 13:49, 19 October 2016

CryptoGE®M
Team
Project
Biology
Computing
Human Practice
Acknowledgements

CryptoGE®M: Encode it, keep it

The world's silicon supply won't be able to cover the demand for data storage by 2040. However, nature has been encoding enormous amounts of information in DNA for billions of years. By introducing a sequence into DNA of bacterial spores, one of the most resistant-to-harsh-conditions forms of life, "CryptoGErM" tries to combine storing information and transferring it in a safe way. The goal is to safely send a key and an encrypted message in two separate spore systems of Bacillus subtilis. Digital and biological protection layers will prevent this information from being captured by unauthorized parties. The message is protected by computational encryption, while the sensitive key can only be accessed from the spores with the right growing conditions. For example, light-switchable antibiotics have to be activated by the correct frequency of light. If the recipient fails, the sequence will be destroyed and the message is lost forever.

Bacilli

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