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Single cells can learn things.



In some visions, the DNA pair or the protein pair can used to create the photons or acoustic bubbles between them. Then quantum computer can use those bubbles to make the quantum entanglement. That means the DNA or protein can be used as tools for acoustic qubit systems. But when we see that single cells can learn things we are facing an interesting thing. 

If that learning process is based on pressure that kind of acoustic system can be used to program cells. In some visions, the acoustic systems can control cells. 

Things like slime mold are things that show that the brains and neurons are not required in the learning process. And now researchers found that even individual cells learn things. That allows for improved medical research. The system can teach cells to find and terminate non-wanted cells. 

That allows creating. The control systems for nanorobots. The ability to learn. Makes it possible to create cells that operate as miniature robots. Those systems can clean the blood vessels from waste. 

This is one of the biggest breakthroughs in the research that can revolutionize nanotechnology and many other things. A short time ago. Researchers found that the neurons are not only cells that can store memories. Other tissue types participate in that process. 

Researchers noticed that the nervous system in the kidneys and nerve tissue cells can learn things. That thing can be a breakthrough for restoring brain damage. But the thing. That the single cells can learn. Is the key. To open new dimensions to the learning of other species. 

The big question in evolution is this. When did the species start to learn? Do things like amoebas and vegetables learn? The slime mold can learn things. So, can amoeba or some bacteria learn things cognitively? Those new findings can also make it possible to find out how things like bugs learn how to avoid their predators. And that can make it possible to create new ways to destroy harmful insects. Or program things. Like mosquitos to avoid malaria. 

The cell can store its memories in the DNA double helix or the protein helix structures. That thing makes a big advance in nano- and biotechnology. If researchers can crack this process. They can teach cells to deny things like virus entrance to the cells. The viruses can otherwise reprogram cells and make them make new things. 

The ability to teach cells will give new ways to fight against cancer. If cells include cognitive skills. The system can program them by using signals that the cell uses to learn. DNA-based learning is the thing. That requires the ability to change the DNA from those cells. That reprograms cells. 



https://scitechdaily.com/mind-blowing-discovery-scientists-discover-that-memories-are-not-only-in-the-brain/


https://scitechdaily.com/single-cells-can-learn-a-revolutionary-discovery-in-biology/

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