Can this be the route to immortality?



Researchers created a clone of a mouse. And then they re-cloned that clone. This thing makes it possible to create immortality. Practical solutions require more work. But the beginning is always difficult. 

After 57 generations, less than 1% of those clones survived. The problem is in the DNA damage that forms when the DNA is separated and injected into the next generation of embryos. The system must have the ability to test. And find errors. And then fix them in the DNA molecules. The system must have the DNA code in digital form. Then it must read the DNA before it injects it into the next-generation embryos. The system must also take. The DNA from individuals. They are as young as possible. That guarantees the ability. To get the DNA. With minimal damage. Then the system must find critical errors. And changes from the DNA. And use nanotechnology to replace them. The digital copy or DNA’s digital twin makes it possible to compare the DNA that the system uses. 

To the model. Nanotechnology can make it possible to create artificial DNA, highlighting certain abilities. The problem with cloning is that the DNA must be cleaned. Mutations must be removed. And then. The system must make sure that the DNA is not damaged. Things like artificial intelligence. Makes it possible to create a system that can detect and fix DNA damage. Naturally transferred DNA will be damaged. The system must make a DNA copy. From the cell’s core DNA and mitochondrial DNA. Then it must remove the original DNA from the fertilized egg. And then inject the repleasing DNA into the cell core. 

Basically, cloning rhodents is similar. To clone humans. Human clones are made for so-called embryo research. The fact is that those clones can also be used for assisted fertility treatments. Modern nanotechnology can. Make it possible to control things. Like clones phenotypes. And that means that researchers. 

They can use a gene-editing tool to make a clone. That looks like their parents. But whose genotype is different. The new tools, AI, nanotechnology, and special systems, can make it possible to control the outfit and behavior of the clone. The system can determine tissues. That fits the receiver. 

 In this technology, genetic engineering makes it possible. To create a copy of the body. And things like brain-implanted microchips can make it possible to transfer memories into that body or its brain. This is one of the things. That makes this kind of technology interesting and, at the same time, dangerous. We can think. That's a very wealthy dictator who dies in a revolution, who would make a clone of his body. 

And then drives memories. Into the brains. Of that clone. So, we can think that after a bloody career. That dictator would be punished. And then. The system creates a clone of that person. This makes it possible. So that those people can transfer their memories into the next body over the generations. So if someone is very hated. That means that a person can make a copy of themselves. And then “sleep” over a couple of generations. Cloning technology, along with nanotechnology. It is the tool that makes it possible to make human clones. 

This type of technology makes things like interstellar travel possible. But then we can think. Its role in military technology. The system. That makes it possible to create human clones. It can make it possible to create super soldiers. The idea is that the system selects the most qualified and successful operators and then clones them. That kind of system is one tool that makes it possible to create gene-edited super soldiers. 


https://futurism.com/science-energy/scientists-cloned-recloned-mouse


https://interestingengineering.com/military/china-genetically-enhanced-super-soldiers


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