Cells, as medicine, now can be switched on and off with electricity

Biotech

The following essay is reprinted with permission from The Conversation, an online publication covering the latest research.

Microelectronics has transformed our lives. Cellphones, earbuds, pacemakers, defibrillators—all these and more rely on microelectronics’ very small electronic designs and components. Microelectronics has changed the way we collect, process and transmit information.

Such devices, however, rarely provide access to our biological world; there are technical gaps. We can’t simply connect our cellphones to our skin and expect to gain health information. For instance, is there an infection? What type of bacteria or virus is involved? We also can’t program the cellphone to make and deliver an antibiotic, even if we knew whether the pathogen was Staph or Strep. There’s a translation problem when you want the world of biology to communicate with the world of electronics.

The research we’ve just published with colleagues in Nature Communications brings us one step closer to closing that communication gap. Rather than relying on the usual molecular signals, like hormones or nutrients, that control a cell’s gene expression, we created a synthetic “switching” system in bacterial cells that recognizes electrons instead. This new technology—a link between electrons and biology—may ultimately allow us to program our phones or other microelectronic devices to autonomously detect and treat disease.

This article was originally published on The Conversation. Read the original article.