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Team:Hong Kong HKUST/Project
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<tr><td colspan="3" > <font align="center"><u><h3> Project Description </h3></u></font> | <tr><td colspan="3" > <font align="center"><u><h3> Project Description </h3></u></font> | ||
| - | <p> Streptococcus pneumoniae infection is a leading cause of many pneumococcal diseases such as meningitis, septicaemia and otitis media. According to the World Health Organization, pneumococcal diseases are estimated to be responsible for 1.6M deaths every year. According to National Institutes of Health, 40% to 70% infected children are killed or disabled by this disease in developing countries. To provide an affordable solution to combat pneumococcal diseases, our team came up with Pneumosensor, an engineered E. coli that would detect | + | <p>''Streptococcus pneumoniae'' infection is a leading cause of many pneumococcal diseases such as meningitis, septicaemia and otitis media. According to the World Health Organization, pneumococcal diseases are estimated to be responsible for 1.6M deaths every year. According to National Institutes of Health, 40% to 70% infected children are killed or disabled by this disease in developing countries. To provide an affordable solution to combat pneumococcal diseases, our team came up with Pneumosensor, an engineered ''E. coli" designated to work inside an ''in vitro'' diagnostic device that would detect ''S. pneumonia''.</p> |
| - | <p>Pneumosensor achieves its function by making use of quorum sensing pathway components in S. pneumonia. S. pneumonia secretes an autoinducer molecule known as Competence Stimulating Peptide (CSP), which activates the comCDE signal transduction pathway and increases the uptake of extracellular DNA during the log phase of bacterial growth. Our team is migrating and rewiring this quorum-sensing mechanism into E. coli to sense and report populations of S. pneumoniae. After establishing the detection platform, Pneumosensor will be engineered to release lysozymes that can kill S. pneumoniae. Alongside this track, we are | + | <p>Pneumosensor achieves its function by making use of quorum sensing pathway components in ''S. pneumonia''. ''S. pneumonia'' secretes an autoinducer molecule known as Competence Stimulating Peptide (CSP), which activates the comCDE signal transduction pathway and increases the uptake of extracellular DNA during the log phase of bacterial growth. Our team is migrating and rewiring this quorum-sensing mechanism into ''E. coli'' to sense and report populations of ''S. pneumoniae''. After establishing the detection platform, Pneumosensor will be engineered to release lysozymes that can kill ''S. pneumoniae''. Alongside this track, we are thoroughly cataloging and characterizing existing riboregulators submitted by previous teams. We believe that this will be useful for other synthetic biologists.</p> |
| - | <p>In summary, our team hopes to alleviate the health complications caused by S. pneumoniae by designing and constructing a whole-cell biosensor that can kill S. pneumoniae. Moreover, we | + | <p>In summary, our team hopes to alleviate the health complications caused by ''S. pneumoniae'' by designing and constructing a whole-cell biosensor that can kill ''S. pneumoniae''. Moreover, we are curating existing RNA devices for the benefit of other future iGEM teams and those working in the synthetic biology field.</p><hr></td> |
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Revision as of 12:51, 15 August 2014
WELCOME TO iGEM 2014!Your team has been approved and you are ready to start the iGEM season!
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Project Description''Streptococcus pneumoniae'' infection is a leading cause of many pneumococcal diseases such as meningitis, septicaemia and otitis media. According to the World Health Organization, pneumococcal diseases are estimated to be responsible for 1.6M deaths every year. According to National Institutes of Health, 40% to 70% infected children are killed or disabled by this disease in developing countries. To provide an affordable solution to combat pneumococcal diseases, our team came up with Pneumosensor, an engineered ''E. coli" designated to work inside an ''in vitro'' diagnostic device that would detect ''S. pneumonia''. Pneumosensor achieves its function by making use of quorum sensing pathway components in ''S. pneumonia''. ''S. pneumonia'' secretes an autoinducer molecule known as Competence Stimulating Peptide (CSP), which activates the comCDE signal transduction pathway and increases the uptake of extracellular DNA during the log phase of bacterial growth. Our team is migrating and rewiring this quorum-sensing mechanism into ''E. coli'' to sense and report populations of ''S. pneumoniae''. After establishing the detection platform, Pneumosensor will be engineered to release lysozymes that can kill ''S. pneumoniae''. Alongside this track, we are thoroughly cataloging and characterizing existing riboregulators submitted by previous teams. We believe that this will be useful for other synthetic biologists. In summary, our team hopes to alleviate the health complications caused by ''S. pneumoniae'' by designing and constructing a whole-cell biosensor that can kill ''S. pneumoniae''. Moreover, we are curating existing RNA devices for the benefit of other future iGEM teams and those working in the synthetic biology field. |
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Tell us more about your project. Give us background. Use this as the abstract of your project. Be descriptive but concise (1-2 paragraphs) ReferencesiGEM teams are encouraged to record references you use during the course of your research. They should be posted somewhere on your wiki so that judges and other visitors can see how you though about your project and what works inspired you. |
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