Team:WPI-Worcester

From 2014.igem.org

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<h4>Ag-goat-ination:</h4><p><h8>Combating Antibiotic Resistance through Diagnostic Agglutination Assays</h8></p><p>Just this year, in a vote held for the Longitude Prize, antibiotic resistance was voted the most pressing issue of our time. One of the biggest causes of antibiotic resistance lies in the farming industry; more than 3 times the amount of antibiotics given to humans are administered to livestock. Over-prescription of antibiotics promotes resistance in both livestock pathogens and natural flora, which can be transmitted to humans through meat and other products.</p>
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<h4>Ag-goat-ination:</h4><p><h8>Combating Antibiotic Resistance through Diagnostic Agglutination Assays</h8></p></br><p>Just this year, in a vote held for the Longitude Prize, antibiotic resistance was voted the most pressing issue of our time. One of the biggest causes of antibiotic resistance lies in the farming industry; more than 3 times the amount of antibiotics given to humans are administered to livestock. Over-prescription of antibiotics promotes resistance in both livestock pathogens and natural flora, which can be transmitted to humans through meat and other products.</p>
<p>A cheap, quick, and reliable mechanism for detecting and identifying infection is one solution to this problem. We developed an E.coli based cell surface antigen expression system that can be utilized as a diagnostic tool for nearly any viral, bacterial, or fungal infection. The recombinant E.coli are utilized in a direct agglutination test using the host organism’s serum. Our team successfully demonstrated the feasibility of this diagnostic tool using a GFP antibody and antigen pair. </p>
<p>A cheap, quick, and reliable mechanism for detecting and identifying infection is one solution to this problem. We developed an E.coli based cell surface antigen expression system that can be utilized as a diagnostic tool for nearly any viral, bacterial, or fungal infection. The recombinant E.coli are utilized in a direct agglutination test using the host organism’s serum. Our team successfully demonstrated the feasibility of this diagnostic tool using a GFP antibody and antigen pair. </p>

Revision as of 04:27, 17 October 2014

Team:WPI-Worcester - 2014.igem.org

 

Team:WPI-Worcester

From 2014.igem.org


Ag-goat-ination:

Combating Antibiotic Resistance through Diagnostic Agglutination Assays


Just this year, in a vote held for the Longitude Prize, antibiotic resistance was voted the most pressing issue of our time. One of the biggest causes of antibiotic resistance lies in the farming industry; more than 3 times the amount of antibiotics given to humans are administered to livestock. Over-prescription of antibiotics promotes resistance in both livestock pathogens and natural flora, which can be transmitted to humans through meat and other products.

A cheap, quick, and reliable mechanism for detecting and identifying infection is one solution to this problem. We developed an E.coli based cell surface antigen expression system that can be utilized as a diagnostic tool for nearly any viral, bacterial, or fungal infection. The recombinant E.coli are utilized in a direct agglutination test using the host organism’s serum. Our team successfully demonstrated the feasibility of this diagnostic tool using a GFP antibody and antigen pair.