Can we sense electric fields?

An incredible discovery has been made by researchers at the UC Davis Institute for Regenerative Cures. They have found the first actual “sensor mechanism” that enables a living cell to detect an electrical field.

This discovery came as a huge surprise, as it hadn’t even been hypothesised before its discovery during an experiment. They found a two molecule “sensing” mechanism, which they believe to be one of many mechanisms at work that are yet to be uncovered.

Min Zhao and his colleagues made the discovery while studying both the cells of large animals (such as humans and fish) and also the cells of soil dwelling amoeba. They found that two elements within human cells, a protein and molecules within the cell called polyamines, were needed for these unusual signals to occur. The protein is known as Kir4.2, and is a potassium channel to allow potassium to enter the cell.

The scientists found that when the cells were exposed to an electric field, the positive polyamines tend to accumulate at the side near the negative electrode. The polyamines then bind to the Kir4.2 channel, and regulate its activity. The researchers are still not sure how the switching of the potassium channels results in directional movement by the cell, and will be continuing their investigation to try and figure this out.




Can we sense electric fields?
Our bodies generate electricity through a complex chain of chemical reactions


How our bodies generate electricity

Although we can’t generate force lightning like the famous Sith Lords of Star Wars or vaporise our enemies like Electro, our body is able to generate electricity.The source creating this electricity is chemical, and is related to the composition of the atoms and molecules present in our bodies. Everything we take in has some form of electrical charge; how they react with the chemicals around them is the key to generating a charge within us.

When we take in food, long, complex molecules are broken down into small chains by digestion. When they are then used by our body in cellular respiration, they have the ability to create electrical impulses. This depends on the specific situations within the body at the time.


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