homehome Home chatchat Notifications


Scientists mass-produce 'magic mushroom' active ingredient from bacteria

The study shows that psilocybin can be produced in a sustainable manner.

Tibi Puiu
October 3, 2019 @ 7:21 pm

share Share

Psilocybin, the active psychoactive compound found in specific mushrooms, is a promising drug that can be used to treat depression, anxiety, addiction, and post-traumatic stress disorder. Looking towards the future, researchers at Miami University have used genetic engineering to coax harmless E. coli bacteria to produce psilocybin.

Psilocybe semilanceata. Credit: Pixabay.

The mushrooms that produce psilocybin, such as Psilocybe cubensis, are not particularly expensive or difficult to grow. However, they do take up a lot of space and require many weeks to mature.

Andrew Jones, a chemical engineer at Miami University, and colleagues figured that a more effective way to grow the chemical compound would be to hijack another organism’s metabolic pathways.

To this aim, the research team engineered the metabolism of the Escherichia coli bacterium so that it would produce psilocybin.

“We are taking the DNA from the mushroom that encodes its ability to make this product and putting it in E. coli,” Jones said. “It’s similar to the way you make beer, through a fermentation process. We are effectively taking the technology that allows for scale and speed of production and applying it to our psilocybin producing E. coli.”

Alexandra Adams. Credit: Miami University.

The moment Jones and Alexandra Adams, a chemical engineering major who performed much of the experimental design, noticed that their research was paying off, they almost couldn’t believe it.

“Once we transferred the DNA, we saw [a tiny] peak emerge in our data. We knew we had done something huge,” Adams said.

After the first signs of psilocybin synthesis, the researchers were able to greatly enhance yield by tweaking the bacteria’s metabolism.

“What’s exciting is the speed at which we were able to achieve our high production. Over the course of this study we improved production from only a few milligrams per liter to over a gram per liter, a near 500-fold increase,” Jones said.

For their next study, Jones and colleagues would like to improve the production of psilocybin from bacteria even further in order to meet sustainable production levels required by the pharmaceutical industry.

The findings appeared in the journal Metabolic Engineering.

share Share

This 5,500-year-old Kish tablet is the oldest written document

Beer, goats, and grains: here's what the oldest document reveals.

A Huge, Lazy Black Hole Is Redefining the Early Universe

Astronomers using the James Webb Space Telescope have discovered a massive, dormant black hole from just 800 million years after the Big Bang.

Did Columbus Bring Syphilis to Europe? Ancient DNA Suggests So

A new study pinpoints the origin of the STD to South America.

The Magnetic North Pole Has Shifted Again. Here’s Why It Matters

The magnetic North pole is now closer to Siberia than it is to Canada, and scientists aren't sure why.

For better or worse, machine learning is shaping biology research

Machine learning tools can increase the pace of biology research and open the door to new research questions, but the benefits don’t come without risks.

This Babylonian Student's 4,000-Year-Old Math Blunder Is Still Relatable Today

More than memorializing a math mistake, stone tablets show just how advanced the Babylonians were in their time.

Sixty Years Ago, We Nearly Wiped Out Bed Bugs. Then, They Started Changing

Driven to the brink of extinction, bed bugs adapted—and now pesticides are almost useless against them.

LG’s $60,000 Transparent TV Is So Luxe It’s Practically Invisible

This TV screen vanishes at the push of a button.

Couple Finds Giant Teeth in Backyard Belonging to 13,000-year-old Mastodon

A New York couple stumble upon an ancient mastodon fossil beneath their lawn.

Worms and Dogs Thrive in Chernobyl’s Radioactive Zone — and Scientists are Intrigued

In the Chernobyl Exclusion Zone, worms show no genetic damage despite living in highly radioactive soil, and free-ranging dogs persist despite contamination.