How did electric eels get their jolt? Genetic study reveals clues.

The ability to generate a powerful electric field evolved independently in six species of fish not closely related to each other. New research unravels the genetic pathways of how this strange organ came to be. 

Using genetic studies, scientists have revealed how electric fish have developed a specialized organ that can unleash a potent jolt.

Jason Gallant, Michigan State University/Handout via Reuters

June 27, 2014

Here is some truly shocking news: Scientists have discovered the secrets behind electric fish, using genetic studies that revealed how these exotic creatures developed an organ that can unleash a potent jolt.

Researchers on Thursday unveiled a genetic blueprint of the electric eel - a freshwater denizen of South America that can generate an electric field of up to 600 volts - as well as detailed genetic data on two other types of electric fish.

Even though six groups of electric fish have evolved independently in far-flung locales like the muddy waters of the Amazon and murky marine environments, they all seem to have reached into the same "genetic toolbox" to fashion their electricity-generating organ, they said.

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The new study found that various electric fish rely on the same genes and biological pathways to build their electric organs from skeletal muscle despite the different appearance and body location of their organs.

Their electrical abilities stand as one of the wonders of nature alongside traits like bioluminescence in some insects and sea creatures and echolocation in bats and whales.

"It really is something truly unique in the animal kingdom," Michigan State University zoology professor Jason Gallant said.

"This only arose in fish because water is a conductor of electricity while air is not. Thus, birds or terrestrial animals could not come up with this," University of Wisconsin biochemistry professor Michael Sussman added.

There are hundreds of species of electric fish worldwide, with varying degrees of electric power.

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Fish with weak electric power use it to navigate in dim waters and communicate with one another. Those like the electric eel - a serpentine freshwater predator up to 8 feet long (2.4 meters) that is not a true eel but rather a catfish relative - possessing a powerful jolt use it to stun or kill prey and repel enemies.

Scientists have wondered about how these fish first acquired electric powers and how this characteristic emerged six times in groups not closely related to one another.

"Electric organs start out their lives as muscle precursor cells. Through a series of developmental steps, they become larger, more electrically excitable and lose their ability to contract," Gallant said.

All muscle cells have electrical potential because any muscle contraction releases a small amount of voltage. Certain fish exploited that by transforming ordinary muscle cells into a larger type of cell called an electrocyte that generates vastly higher voltages. The electric organ is made of these cells.

"Each electric organ cell makes only a small voltage, similar in magnitude to our own muscles. The secret of electric organs is that the cells are aligned in stacks and electrically insulated so that the voltages add like batteries in a series," University of Texas neuroscience professor Harold Zakon said.

The six groups include: South American knife fishes, African electric catfish, African elephant fish, stargazers, some skates and some rays. Scientists think the electric organ first appeared in a fish 150 million to 200 million years ago, Gallant added.

The study was published in the journal Science.

(Reporting by Will Dunham; Editing by Cynthia Osterman)