In the summer of 1986, futuristic magnetic trains and life-size robots drew a teenaged Michael Levin to the Vancouver World’s Expo. But what changed his life was an obscure used book he found on the ...

Add Yahoo as a preferred source to see more of our stories on Google. Your cells constantly generate and conduct electricity that runs through your body to perform various functions. One such example ...

All cells can generate bioelectric signals through their plasma membrane, and therefore naturally exist in our bodies. Cancer growth interferes with local ionic, membrane and epithelium environments, ...

Researchers have developed a way to achieve an ultra-high bioelectric signal from human embryonic stem cells. Using direct current-voltage methods and few-layered 2D molybdenum disulphide (MoS2) ...

Mustafa Djamgoz’s interest in bioelectricity began with the first-hand experience of electricity coursing through his own biology. As a teenager growing up on the island of Cyprus, Djamgoz and a ...

In research that extends knowledge about the physiology of regeneration and wound repair, biologists have discovered that amputation of one limb is immediately reflected in the bioelectric properties ...

Select an option below to continue reading this premium story. Already a Honolulu Star-Advertiser subscriber? Log in now to continue reading. Developmental biologist Michael Levin and colleagues at ...

Researchers led by biologists at Tufts University have discovered that the brains of developing frog embryos damaged by nicotine exposure can be repaired by treatment with certain drugs called ...

In research that extends knowledge about the physiology of regeneration and wound repair, Tufts University biologists have discovered that amputation of one limb is immediately reflected in the ...

(Nanowerk Spotlight) For the first time, Singaporean researchers have developed a method using two-dimensional molybdenum disulfide (2D-MoS2) sheets to achieve ultra-high bioelectric signals from ...