The DNA plasmid is the chemical brain or coordination center of bacteria. The mission of that plasmid is to control everyday actions like the movements of bacteria.
The DNA plasmid is acting as the chemical brains of bacteria. The chemical brains can coordinate the actions of robots and act as mass memories like electromagnetic systems. And the synthetic DNA plasmids can use as chemical computers and the ROM (Read Only Memory) circuits for storing data for long-term sleep. When the electricity is connected to those circuits, the DNA will send the data to the electromagnetic circuit, whose mission is to send the orders to other parts of the system on how to interact with other hardware.
But that chemical brain is also interesting to the people, who are working with nanomachines. The DNA plasmid can be used to create miniature factories and control self-replicating molecules. The molecular self-replication requires a certain chemical environment and the genetically manipulated bacteria can offer those environments, where the smallest possible nanomachines can be created.
When we are saying that bacteria don't have brains, we are meaning that the system that controls the functions of bacteria is different, what we have. Bacteria have a chemical system, that controls their functions. And that system is in DNA plasmid, what is acting as chemical brains, what is controlling bacteria like electro-chemical brains are controlling the life of more complicated animals.
The DNA plasmid is acting like a gramophone, and it gives orders for the organs of bacteria how to act in situations, which can affect the survivability of bacteria. The chemical brains or DNA plasmids that are controlling the bacteria are interesting also people, who are making nanomachines. The nanomachine can be the artificial bacteria, which is making its missions in many areas. Or it can be a non-organic capsule, what functions are controlled by the chemical systems.
But the fact is that the DNA plasmids and nanomachines can also use to fix the brain damages. The neurons can be cloned, and inject into the areas, where brain tissue. But the problem is how to transmit the lost memories to the neuron. So the nanomachine can transmit the data in the single neurons, but the problem is how to make mass memories and coordinate for the nanomachines.
Image:https://www.researchgate.net/figure/The-schematic-diagram-of-bacterial-cell-structure_fig1_260919435
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