![]() Green cells represent the frog cells that create the structure of the xenobot, and red cells represent the heart cells that assist in movement. (Right) The final biological organism that was created using the simulated design from the frog cells. (Left) The structure of a xenobot designed by an artificial intelligence simulation. ![]() In the case of xenobots, the stem cells were transformed into frog skin (green) and heart cells (red). Stem cells are specialized cells that can develop into different cell types. Biologists at Tufts University and computer scientists from the University of Vermont came together to develop these living robots from frog stem cells using artificial intelligence. They are named after the African clawed frog ( Xenopus laevis ) from which they were created. ![]() What if I told you scientists have built tiny robots from frog cells that can move, remember things, and heal themselves? I am talking about Xenobots 2.0, the world’s first living robots, which were made us ing cells derived from frog embryos. What comes to mind when you think of machines? Perhaps structures made of metal, plastic, or ceramics.
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