Now we know how some bacteria ‘eat’ electricity to survive

Scientists have been curious about how bacteria that survive on electricity actually make the process happen. Now we know.

Nov. 8, 2019 | Original article
Talia Ogliore-WUSTL | futurity
2 mins

An electrical tower with wires coming out of it stands against a sunset-like background with blue at the top of the frame and yellow at the bottom

New research sheds light on how certain bacteria get their energy from electrical charges.

Bacteria don’t have mouths, so they need another way to bring their fuel into their bodies. The new research reveals how one such bacteria pulls in electrons straight from an electrode source.

“The molecular underpinning of this process has been difficult to unravel until our work,” says Arpita Bose, assistant professor of biology at Washington University in St. Louis.

“This is mostly due to the complex nature of the proteins involved in this process. But now, for the first time, we understand how phototrophic microbes can accept electrons from solid and soluble substances.”

“I was excited when we found that these phototrophic bacteria use a novel processing step to regulate the production of key electron transfer protein involved in this process,” says first author Dinesh Gupta, a PhD candidate in the Bose laboratory.

“This study will aid in designing a bacterial platform where bacteria can feed on electricity and carbon dioxide to produce value-added compounds such as biofuels.”

Getting the electricity across the outer layer of the bacteria is the key challenge. This barrier is both nonconductive and impermeable to insoluble iron minerals and/or electrodes.

Bose and her collaborators, including Robert Kranz, professor of biology, showed that the naturally occurring strain of Rhodopseudomonas palustris TIE-1 builds a conduit to accept electrons across its outer membrane. The bacteria relies on an iron-containing helper molecule called a deca-heme cytochrome c. By processing this protein, TIE-1 can form an essential bridge to its electron source.

Extracellular electron uptake, or EEU, can help microbes to survive under nutrient-scarce conditions.

Now that Bose has documented these mechanisms behind EEU, she hopes to use it as a biological marker to identify other electricity-eating bacteria in the wild. The findings will help researchers to understand the importance of this functionality in metabolic evolution and microbial ecology.

The research appears in the journal mBio.

Source: Washington University in St. Louis

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