The astrobiological researchers. Along with SETI-institute. Made the hypothetical model, that bacteria can transmit information between alien species. However, there is the possibility of using artificial bacteria and artificial DNA to make biorobots that can transmit data to neurons. That makes it possible to fix things like neural damage.
The fact is that. It is possible. That bacteria can transmit information to the neuron using electric impulses. The bacteria require customized DNA to make the right electric impulses. The system can create artificial cells. And artificial DNA that can control the biological USB stick that can transport data to neurons or regular computers. This is one thing that the programmed cells can make.
But the artificial bacteria can make many new things. The artificial bacteria can also slow or even stop aging. When we think of aging as an entirety, we must know that there are two types of DNA in the cell that can damaged. The first and most well-known DNA is in the cell's core. And the other DNA is in the mitochondria. Some diseases are the result of the DNA damage in mitochondria.
"Mitochondrial replacement therapy (MRT), sometimes called mitochondrial donation, is the replacement of mitochondria in one or more cells to prevent or ameliorate disease. MRT originated as a special form of in vitro fertilisation in which some or all of the future baby's mitochondrial DNA (mtDNA) comes from a third party. " (Wikipedia, Mitochondrial replacement therapy)
"This technique is used in cases when mothers carry genes for mitochondrial diseases. The therapy is approved for use in the United Kingdom. A second application is to use autologous mitochondria to replace mitochondria in damaged tissue to restore the tissue to a functional state. This has been used in clinical research in the United States to treat cardiac-compromised newborns." (Wikipedia, Mitochondrial replacement therapy)
When cells divide the mitochondria, cell organelles whose purpose is to create energy for the cell get a signal to divide. Same way as the outcoming effects destroy the DNA in the cell's core, the same effects destroy the DNA in mitochondria. So if we want to make the cell young again, we must change the DNA in its core and also replace the mitochondria in the cell using mitochondria with new and fresh DNA.
The programmed cell can create mitochondria with fresh DNA and then transfer those things into the targeted cells. There is one little problem. Those mitochondria must have the same antigens as the receiver. But it's possible that if the person's cell and mitochondria DNA map is done at a young age the nanotechnical system can create the artificial DNA. It's possible.
The nanotechnical system can take the young creatures' mitochondria DNA and then connect there the DNA that control's the antigen formation. That allows cloning of the mitochondria that can be used to replace sick mitochondria. And maybe someday ability to fix DNA damage and switch the DNA in the cells and their mitochondria will make long-term space journeys possible.
https://scitechdaily.com/search-for-extraterrestrial-intelligence-how-microbes-could-communicate-with-alien-species/
https://en.wikipedia.org/wiki/Mitochondrial_replacement_therapy
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