You would see some sort of patterns there, and we don't see such a thing. Like the difference between a silicon microchip and just a silicon block. Same stuff, bit the microchip one has intricate patterns.
I get your point and I agree, the DNA runs on hardware, which is why you can't take cat DNA and put it in a salamander cell and expect to get a cat. The resulting cell will just die since the hardware is not compatible…
Aren't those electrical field patterns still somehow encoded in the DNA?
At around 2:30 you can see some cells moving inside the embryo. What are they doing?
You would see some sort of patterns there, and we don't see such a thing. Like the difference between a silicon microchip and just a silicon block. Same stuff, bit the microchip one has intricate patterns.
I get your point and I agree, the DNA runs on hardware, which is why you can't take cat DNA and put it in a salamander cell and expect to get a cat. The resulting cell will just die since the hardware is not compatible…
Aren't those electrical field patterns still somehow encoded in the DNA?
At around 2:30 you can see some cells moving inside the embryo. What are they doing?