Michael Levin's pioneering work in developmental neurobiology reveals that bioelectric signals significantly influence organism formation and development, independent of genetic code. His lab's experiments using flatworms demonstrate that altering whole-organism electrical fields can switch between producing one-headed and two-headed worms. This challenges established biological paradigms, suggesting that organisms have more developmental possibilities than previously thought. Levin's research points toward innovative applications in regenerative medicine, cancer treatment, and understanding consciousness, emphasizing a broader view of biological problem-solving and potential organismal redesign.
Levin's research reveals how bioelectricity influences development and forms, suggesting organisms can be shaped far beyond genetic constraints through electric signaling.
The lab's experiments with flatworms illustrate that bioelectric fields can determine physical forms, calling into question traditional genetic understandings of development.
Collection
[
|
...
]