Team:Uppsala

From 2014.igem.org

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<h2>Project Description</h2>
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<h2>Bactissiles: The future of microbial combatn</h2>
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<p>With increasing antibiotic resistance in most of the pathogens, it becomes a critical problem to tackle in order to save the people of tomorrow. If we do not find an alternative to the antibiotics now, WHO estimates that the world will be thrown back to the hospital situation of the 1800’s.Considering this problem, the Uppsala iGEM team tries to combat it using the pathogen’s own quorum sensing system  to help probiotic bacteria find and kill that specific pathogen. By acquiring the quorum sensing system from Yersinia enterocolitica, we can sense their presence and use it to control the movement and the expression of a specific bacteriocin in our probiotic. This bacteriocin produced will eliminate the Yersinia enterocolitica, leaving the gut flora intact.</p>
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<p>Destabilized ecosystems and disturbed gut floras are both consequences of treatments that lack selectivity. More efficient and precise methods are needed. This year we, the Uppsala iGEM team, tries to widen the view and find new possibilities with engineered bacteria. By developing a system that homes towards a target and secretes an affectant, we can ensure a specific outcome. Such a system could have applications in a number of different fields, though we have chosen to put this into practice in a pinpointing pathogen-killing approach. In our prototype system, introduced in<i> E. coli </i>, we hijack the quorum sensing system of the gut pathogen <i> Yersinia enterocolitica </i>. Our bacteria will be able to sense the presence of the pathogen, accumulate in its vicinity and emit a target-specific bacteriocin, leaving the remaining gut flora intact. The era of mass destruction is over. Welcome the missile bacteria, the Bactissile! .</p>

Revision as of 13:18, 21 September 2014

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Bactissiles: The future of microbial combatn

Destabilized ecosystems and disturbed gut floras are both consequences of treatments that lack selectivity. More efficient and precise methods are needed. This year we, the Uppsala iGEM team, tries to widen the view and find new possibilities with engineered bacteria. By developing a system that homes towards a target and secretes an affectant, we can ensure a specific outcome. Such a system could have applications in a number of different fields, though we have chosen to put this into practice in a pinpointing pathogen-killing approach. In our prototype system, introduced in E. coli , we hijack the quorum sensing system of the gut pathogen Yersinia enterocolitica . Our bacteria will be able to sense the presence of the pathogen, accumulate in its vicinity and emit a target-specific bacteriocin, leaving the remaining gut flora intact. The era of mass destruction is over. Welcome the missile bacteria, the Bactissile! .