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Artificial organism From Wikipedia, the free encyclopedia
Xenobots, named after the African clawed frog (Xenopus laevis),[1] are synthetic lifeforms that are designed by computers to perform some desired function and built by combining together different biological tissues.[1][2][3][4][5][6] There is debate among scientists whether xenobots are robots, organisms, or something else entirely.
Xenobot | |
---|---|
Industry | Robotics, Synthetic biology |
Application | Medicine, environmental remediation |
Dimensions | Microscale |
Fuel source | Nutrients |
Self-propelled | Yes |
Components | Frog cells |
Inventor | Sam Kriegman, Douglas Blackiston, Michael Levin, Josh Bongard |
Invented | 2020 |
The first xenobots were built by Douglas Blackiston according to blueprints generated by an AI program, which was developed by Sam Kriegman.[3]
Xenobots built to date have been less than 1 millimeter (0.04 inches) wide and composed of just two things: skin cells and heart muscle cells, both of which are derived from stem cells harvested from early (blastula stage) frog embryos.[7] The skin cells provide rigid support and the heart cells act as small motors, contracting and expanding in volume to propel the xenobot forward. The shape of a xenobot's body, and its distribution of skin and heart cells, are automatically designed in simulation to perform a specific task, using a process of trial and error (an evolutionary algorithm). Xenobots have been designed to walk, swim, push pellets, carry payloads, and work together in a swarm to aggregate debris scattered along the surface of their dish into neat piles. They can survive for weeks without food and heal themselves after lacerations.[2]
Other kinds of motors and sensors have been incorporated into xenobots. Instead of heart muscle, xenobots can grow patches of cilia and use them as small oars for swimming.[8] However, cilia-driven xenobot locomotion is currently less controllable than cardiac-driven xenobot locomotion.[9] An RNA molecule can also be introduced to xenobots to give them molecular memory: if exposed to specific kind of light during behavior, they will glow a prespecified color when viewed under a fluorescence microscope.[9]
Xenobots can also self-replicate. Xenobots can gather loose cells in their environment, forming them into new xenobots with the same capability.[10][11][12]
Currently, xenobots are primarily used as a scientific tool to understand how cells cooperate to build complex bodies during morphogenesis.[1] However, the behavior and biocompatibility of current xenobots suggest several potential applications to which they may be put in the future.
Xenobots are composed solely of frog cells, making them biodegradable and environmentally friendly robots. Unlike traditional technologies, xenobots do not generate pollution or require external energy inputs during their life-cycle. They move using energy from fat and protein naturally stored in their tissue, which lasts about a week, at which point they simply turn into dead skin cells.[2] Additionally, since swarms of xenobots tend to work together to push microscopic pellets in their dish into central piles,[2] it has been speculated that future xenobots might be able to find and aggregate tiny bits of ocean-polluting microplastics into a large ball of plastic that a traditional boat or drone could gather and bring to a recycling center.
In future clinical applications, such as targeted drug delivery, xenobots could be made from a human patient’s own cells, which would virtually eliminate the immune response challenges inherent in other kinds of micro-robotic delivery systems. Such xenobots could potentially be used to scrape plaque from arteries, and with additional cell types and bioengineering, locate and treat disease.
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