"
Team:Arizona State/Magainin
From 2012.igem.org
(Difference between revisions)
| Line 5: | Line 5: | ||
<h1>Magainin-Split Beta-Galactosidase Biosensor</h1> | <h1>Magainin-Split Beta-Galactosidase Biosensor</h1> | ||
<h2>Overview</h2> | <h2>Overview</h2> | ||
| + | <p> | ||
Current methods of water-borne pathogen detection require expensive equipment that often isn't modular, high throughput, or accessible to developing countries. One of the projects this year's ASU iGEM undertook was building a split-enzyme engineered fusion protein consisting of the Magainin peptide and the split alpha and omega fragments of beta-galactosidase. | Current methods of water-borne pathogen detection require expensive equipment that often isn't modular, high throughput, or accessible to developing countries. One of the projects this year's ASU iGEM undertook was building a split-enzyme engineered fusion protein consisting of the Magainin peptide and the split alpha and omega fragments of beta-galactosidase. | ||
| - | + | </p> | |
<h2>Magainin</h2> | <h2>Magainin</h2> | ||
Revision as of 04:08, 3 October 2012
Magainin-Split Beta-Galactosidase Biosensor
Overview
Current methods of water-borne pathogen detection require expensive equipment that often isn't modular, high throughput, or accessible to developing countries. One of the projects this year's ASU iGEM undertook was building a split-enzyme engineered fusion protein consisting of the Magainin peptide and the split alpha and omega fragments of beta-galactosidase.
