The mRNA medicals require complete knowledge of the RNA.

 The mRNA medicals require complete knowledge of the RNA. 

The ability to reprogram cells is a revolution for medical and ICT technology. The data system can use genetically engineered cells that give electric impulses to transport data to binary and quantum computers. The computer program is stored in the DNA form in those cells. 

And then they will transport that data to the computer's microchips. In a binary system, the electric bacteria gives electric impulses to the microchip. 

That allows to transport of information packed in the DNA or RNA to the microchips. That makes the system possible to transport a very complicated code written in molecular form in the DNA to non-organic computers. 

Researchers are interested in the mRNA (Messenger RNA) because that molecule can be used to adjust things like protein production. "In molecular biology, messenger ribonucleic acid (mRNA) is a single-stranded molecule of RNA that corresponds to the genetic sequence of a gene, and is read by a ribosome in the process of synthesizing a protein." (Wikipedia/Messenger RNA)

The mRNA is one of the most interesting versions of the next-generation medicines. The mRNA is the transmitter RNA that cells use for commanding cell organoids. The mRNA (Messenger RNA) is the tool, that researchers can use to program cells. Synthetic mRNA can program cells to create antibodies against viruses and bacteria. 

Synthetic mRNA can also shut down cells and close their ion pumps. This ability can kill bacteria and non-wanted cells. mRNA is the tool that can order cells to close their organelles and that denies the virus production in infected cells. And the mRNA can also order bacteria to die. The mRNA can also adjust cells to produce insulin. 

And it can used to transform some cells to another. In the case of things like diabetes, the genetically engineered B-cells can start to produce insulin in the person's body. The mRNA-based medicines are interesting and powerful tools because they program cells in the human body. That allows to creation of cells that have new abilities. 

But effective use of that kind of medical requires that researchers know precisely what certain base pairs in the DNA do. And another thing is that researchers must control the mRNA production precisely. 

When a cell divides the mRNA is the thing that transports data to cell organelles and mitochondria that they must start to divide. The mRNA is easy to isolate from the cell and its nucleus while RNA synthesis begins. Another way is to use nanomachines to collect a series of RNA bases. And then drive that RNA into wanted cells. That thing requires an AI that can control the process precisely. 

Connecting genomes from cells that use geothermal reactions to create oxygen and human blood cells is possible to create cells that can deliver oxygen in the blood. Also bioluminescence cells there is chlorophyll molecules can create oxygen in the blood. Those cells can someday be used to remove carbon dioxide from the human body. Those cells can be used to avoid brain damage in the case of an accident. 

Another interesting thing is cell and bacteria communication. That communication can used to control artificial bacteria in the human body. Those bacteria can remove the plaque from blood vessels. Similar bacteria can remove plaque from the neurons., And they can clean the body from toxins. 

The communication between cells and bacteria can used in the biological production process to control cells and tell how they must produce things like enzymes. The problem with biological production processes is how to control those cells. And the AI-controlled chemical system can be potential for that thing. 

https://scitechdaily.com/cellular-espionage-how-cells-secretly-communicate-with-bacteria/

https://scitechdaily.com/crisprs-hidden-universe-flshclust-algorithm-unlocks-secret-gene-modules/

https://scitechdaily.com/mit-researchers-devised-a-way-to-program-memories-into-bacterial-cells-by-rewriting-their-dna/

https://en.wikipedia.org/wiki/Messenger_RNA

https://en.wikipedia.org/wiki/RNA