Team:Uppsala/killswitches

From 2013.igem.org

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We became curious on what other teams thought about killswitches, and decided to convey a survey. With this survey we also wanted to start a debate about killswitches. Can we really trust killswitches completely? What other options are there? Will we ever become 100% safe from spread in nature?
We became curious on what other teams thought about killswitches, and decided to convey a survey. With this survey we also wanted to start a debate about killswitches. Can we really trust killswitches completely? What other options are there? Will we ever become 100% safe from spread in nature?
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<p>To summarise we concluded that:</p>
<p>To summarise we concluded that:</p>

Revision as of 16:49, 27 October 2013


Uppsala iGEM 2013

Killswitches

One major risk adressed when working with synthetic biology is the spread of the modified organism in nature. To stop the spread in nature most iGEM teams use a system called killswitch. A killswitch system eliminates the risk of bacteria spreading in nature by making it unable to survive without certain condition. A classical killswitch works by the use of a reagent not present in nature that hinders the expression of a toxin. When the bacteria is released to the enviorment, the reagent is no longer present and the expression of the toxin is released.

While this sounds like a good solution there are flaws in the system. A large problem is mutations and genetic recombination that destroys genetic code for the toxin, and therefore making the bacteria able to survive once again. We would also like to argue that the modified bacterias fitness is so much lower than the wild type that the chance of survival in nature is low. To prove this we preformed a competition test,which showed that our modified bacteria would become outcompeted in a couple of days. Therefore we concluded that a killswitch was not needed in our project.

After a long discusion about killswitches our team reached a couple of conclusions. Our first conclusion is that the best killswitch would be one that removes a function of the bacteria much like BGU_Israels p.a.s.e. 2 part. To gain a new function from scratch would need an horizontal genetransfere from another bacteria, or a massive amount of mutations and recombinations. While to loose a function, like producing the toxin, could happen with a single mutation or recombination. Our second conclusion is that the problem with iGEM teams approch to killswitches today is that they do not confirm the effectiveness of the killswitches. How well does to bacteria survive outside the lab? This can easily be tested with an competition test as seen in our project. A killswitch should not simple be inserted as a way to automaticly acheive biosafety criterias without being tested. We hope that future iGEM teams will focus on a low chans of survival outside of the lab, with or without killswitches.

We became curious on what other teams thought about killswitches, and decided to convey a survey. With this survey we also wanted to start a debate about killswitches. Can we really trust killswitches completely? What other options are there? Will we ever become 100% safe from spread in nature?

The results where really fasinating. About a third of the iGEM teams that answered used killswitches, but only half of them belive killswitches will become 100% sure. When asked if we will ever become 100% sure that the bacteria will be released into nature only one sixth of the teams agreed. The other teams said that you have to weigh the risk versus the benefits. There is still though not much of a discussion about risks and benefits in iGEM today.

To summarise we concluded that:

  • The main focus of biosafty should be to meseaure the survivabilty of the bacteria in the wild and then reducing it if needed
  • The best killswitch is one that eliminates a needed function of the bacteria.
  • There is a need for a wider discussion about risk and benefits about synthetic biology within iGEM.