Aug 17, 2019 | Updated: 07:24 AM EDT

The Immunity of the Chinese Brake Fern to Toxic Arsenic

Jun 05, 2019 02:17 PM EDT


Pteris vittata, commonly known variously as the Chinese brake, Chinese ladder brake, or simply ladder brake, is a fern species in the Pteridoideae subfamily of the Pteridaceae. It is indigenous to Asia, southern Europe, tropical Africa and Australia. The type specimen was collected in China by Pehr Osbeck, a Swedish explorer.

The fern may look unassuming. However, Pteris vittata has a superpower: It sucks up arsenic, tucks the toxic metal away in its fronds and lives to tell the tale. No other plants or animals are known to match its ability to hoard the heavy metal. Now researchers have identified three genes essential to how the fern accumulates arsenic, according to a study in the May 20 Current Biology.

The fern shuttles the heavy metal, often found as arsenate in soil, from the plant's roots to its shoots. There, the three genes make proteins that help corral arsenate as it moves through the plant's cells and into a cellular compartment called a vacuole, where the arsenic is sequestered, the team found.

One protein, GAPC1, gloms onto the arsenate, possibly keeping it from doing damage during its journey. Another, OCT4, appears to help arsenate cross membranes, possibly into a structure where a third protein, GSTF1, transforms it into arsenite, the form stored by the plant. Tinkering with the genes caused the plants to die when exposed to arsenic, say Jody Banks, a botanist at Purdue University in West Lafayette, Ind., and her colleagues.

These ferns are already being used to draw arsenic out of soil in some contaminated areas.  It "takes a long time, but it's really cheap," compared with the millions of dollars it can cost to dig out contaminated dirt and clean it, Banks says. In one previous study, the ferns sucked up about half of the arsenic in heavily contaminated soil in five years.


P. vittata is a semi-tropical plant and can't grow year-round everywhere. But splicing its genes into other plants might make it possible to put more cold-tolerant species to work removing arsenic, Banks says.

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