Window on the Clearwater
Traditional news Today's technology



healthtalk.JPG - 5177 Bytes
htsponsors2.PNG - 6545 Bytes

Genetically modified houseplant cleans indoor air

At a Glance

  • Researchers genetically modified an indoor houseplant to purify certain airborne chemicals commonly found in the home that have been linked to cancer.
  • The findings suggest a "green" way to help remove airborne toxins from the home.

The air in your home can affect your family's health. Some airborne chemicals have been linked to cancer. These are called volatile organic carcinogens, or VOCs. VOCs can be released from common household products, furniture, and even cooking. The VOCs with the highest known cancer risk are formaldehyde, benzene, and chloroform.

Indoor plants can be used to help purify indoor air. Studies have suggested that common houseplants can remove VOCs from the air. However, there is disagreement about their effectiveness, and too many plants would be needed to clean the air of a typical room. To enhance their ability to remove VOCs, plants, including trees, have been genetically modified to produce cytochrome P450 2E1 (2E1), a key enzyme in mammals that helps clear toxins from the body. It normally helps break down toxins in the liver.

To test whether this gene could be used in indoor houseplants to more effectively purify indoor air for VOCs, a team led by Dr. Stuart E. Strand at the University of Washington genetically modified the common houseplant pothos ivy (Epipremnum aureum) to produce 2E1. The research was supported in part by NIH's National Institute of Environmental Health Sciences (NIEHS). Results were published online on Dec, 19, 2018, in Environmental Science & Technology.

The researchers spent years injecting a synthetic version of the gene for 2E1 into pothos ivy plants and cultivating new plant lines from those that incorporated the gene. They molecularly confirmed which plant lines contained the added gene.

The team next tested whether these genetically modified plants could remove two VOCs, benzene and chloroform. They placed modified plants and unmodified (wild-type) plants in glass containers that were filled with one of these chemicals for eleven days.

They found that the genetically modified plants cleared out 4.7 times more benzene than the wild-type plants. The genetically modified plants also decreased the concentration of chloroform by 82 percent during the first three days and almost completely after six days. In contrast, the wild-type plants did not clear any chloroform from the air.

"These are all stable compounds, so it's really hard to get rid of them," Strand says. "Without proteins to break down these molecules, we'd have to use high-energy processes to do it. It's so much simpler and more sustainable to put these proteins all together in a houseplant."

Strand says that 2E1 can be beneficial for the plant, too, as it turns chloroform into carbon dioxide and chloride ions, and benzene into a chemical called phenol. "Plants use carbon dioxide to make their food, and they use phenol to help make components of their cell walls," he explains.

The team is now testing ways to combine this gene modification with other modifications that can clear out formaldehyde. Pothos ivy doesn't normally flower, so these genetic modifications won't be able to spread via pollen.

-Tianna Hicklin, Ph.D.

For further information on this and other health topics, visit the web site of the National Institute of Health at

Health Talk Archives...

Sponsored by:

brooksidead2.JPG - 15389 Bytes
cvhcad2.JPG - 13883 Bytes

Window on the Clearwater
P.O. Box 2444
Orofino, ID 83544

Orofino 476-0733
Fax: 208-476-4140