Team:LMU-Munich

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= „BaKillus“ – Engineering a pathogen-hunting microbe =
= „BaKillus“ – Engineering a pathogen-hunting microbe =
Increasing bacterial resistance to classical antibiotics remains a serious threat and urges the development of novel pathogen-killing strategies. Exploiting bacterial communication mechanisms such as quorum sensing is a promising strategy to specifically target certain pathogens. The major aim of this project is the introduction of a genetic circuit enabling ''Bacillus subtilis'' to actively detect, attach to, and eventually kill ''Staphylococcus aureus'' and ''Streptococcus pneumoniae''. Initially, we will introduce the autoinducer-sensing two-component systems of ''S. aureus'' and ''S. pneumoniae'' into ''B. subtilis''.  to create a pathogen-detecting strain. By utilizing quorum sensing-dependent promoters, we will then trigger pathogen-killing strategies like the production of antimicrobial peptides or biofilm degradation. As a safety measure a delayed suicide-switch guarantees non-persistence of genetically modified ''B. subtilis'' in the absence of pathogens. We envision the use of BaKillus as a smart, cheap and simple-to-use medical device for diagnostics and targeted treatment of multiresistant superbugs.
Increasing bacterial resistance to classical antibiotics remains a serious threat and urges the development of novel pathogen-killing strategies. Exploiting bacterial communication mechanisms such as quorum sensing is a promising strategy to specifically target certain pathogens. The major aim of this project is the introduction of a genetic circuit enabling ''Bacillus subtilis'' to actively detect, attach to, and eventually kill ''Staphylococcus aureus'' and ''Streptococcus pneumoniae''. Initially, we will introduce the autoinducer-sensing two-component systems of ''S. aureus'' and ''S. pneumoniae'' into ''B. subtilis''.  to create a pathogen-detecting strain. By utilizing quorum sensing-dependent promoters, we will then trigger pathogen-killing strategies like the production of antimicrobial peptides or biofilm degradation. As a safety measure a delayed suicide-switch guarantees non-persistence of genetically modified ''B. subtilis'' in the absence of pathogens. We envision the use of BaKillus as a smart, cheap and simple-to-use medical device for diagnostics and targeted treatment of multiresistant superbugs.

Revision as of 11:02, 19 September 2014

= „BaKillus“ – Engineering a pathogen-hunting microbe = Increasing bacterial resistance to classical antibiotics remains a serious threat and urges the development of novel pathogen-killing strategies. Exploiting bacterial communication mechanisms such as quorum sensing is a promising strategy to specifically target certain pathogens. The major aim of this project is the introduction of a genetic circuit enabling ''Bacillus subtilis'' to actively detect, attach to, and eventually kill ''Staphylococcus aureus'' and ''Streptococcus pneumoniae''. Initially, we will introduce the autoinducer-sensing two-component systems of ''S. aureus'' and ''S. pneumoniae'' into ''B. subtilis''. to create a pathogen-detecting strain. By utilizing quorum sensing-dependent promoters, we will then trigger pathogen-killing strategies like the production of antimicrobial peptides or biofilm degradation. As a safety measure a delayed suicide-switch guarantees non-persistence of genetically modified ''B. subtilis'' in the absence of pathogens. We envision the use of BaKillus as a smart, cheap and simple-to-use medical device for diagnostics and targeted treatment of multiresistant superbugs.