To make their biological invention, Wu and team first collected from mice some of the stem cells whose job it is to make new skin. Next, they used the gene-editing technique CRISPR to create their built-in glucose detector. That involved adding a gene from E. coli bacteria whose product is a protein that sticks to sugar molecules.
Next, they added DNA that produces two fluorescent molecules. That way, when the E. coli protein sticks to sugar and changes shape, it moves the fluorescent molecules closer or further apart—generating a signal that Wu’s team could see using a microscope.
All that was done in a lab dish—so next the team tested whether the glucose-sensing cells could be incorporated into a mouse’s body by grafting the engineered skin patches onto their backs. When mice who were left hungry were suddenly given a big dose of sugar, Wu says, the cells reacted within 30 seconds. Measuring glucose this way was just as accurate as a blood test, which they also tried.
CRISPR used to genetically edit skin cells and turn them into a glucose detector
CRISPR used to genetically edit skin cells and turn them into a glucose detector
October 8, 2017
Field
Focus
Related To
From Gene-Edited Skin Could Be Its Own Blood-Sugar Sensor on MIT Technology Review: