Artificial DNA can make nanotechnology more flexible and powerful than ever before.
Researchers can use artificial DNA and artificial viruses to manipulate bacteria. But as we know. It's possible to use the same technology, like artificial DNA to control nanomachines. In the cases of biological nanomachines like genetically engineered bacteria, the system must only have a nano-scale engine, that turns the DNA plasmid of bacteria into the right position.
That thing makes it possible to control bacteria using even mobile telephone applications. There could be the reading points in the DNA plasmid. Those points could be the magnesite bites, which involve information on which point or sequence of the plasmid is between those magnesite bites. Then small electric engine moves that plasmid in the wanted position. The system must know only what actions are stored as an example, between reading points 1 and 2.
The biggest problem is how to turn the DNA into the form that the computer knows its code. And one version is to let the DNA control the cells that can give electric shocks. That cell is the connector between chemical programs and electric systems. That cell's electric shocks can turn to binary code. That allows the programs of that system to be stored in chemical form and electric cells transform that data for binary code to processors.
The DNA can control cells that create electric impulses. Those electric impulses can act as bits in the computers. The system can act similar way with plasmid-controlled bacteria- or biological nanomachines. The small nanomachine can start to run the DNA through the cell, which sends information to the microchip. In that kind of system the DNA:s can be sorted as an example in three lines.
1) The first DNA can involve information. What must a nanorobot do when it travels into the target, and how does it find the target?
2) What does the nanorobot do in the target?
3)And how it can travel away from its target?
In some visions, the nanorobot can simply create very much proteins. Those nanorobots can carry genetically engineered cells to the desired position. And then those systems will start to produce protein fibers, that close blood vessels. The other DNA can involve instructions on how to create an enzyme that destroys the protein. This kind of system can controlled through BlueTooth.
And it can be used to close blood vessels in the case of cancer or an accident. But misuse of that system creates a very bad vision. The same robot can also have horrified use if somebody wants to use it as a weapon. This kind of technology can save human life. Or it can turn into a weapon that closes blood vessels from the heart or brain. And when we develop some kind of technology, we must realize that these kinds of systems also have their dark side.
https://interestingengineering.com/health/gene-drive-engineered-viruses-take-on-their-own-kind-in-a-new-study
https://interestingengineering.com/innovation/molecular-engineers-working-dna-nanomachine
https://interestingengineering.com/innovation/ge-aerospace-advances-sustainable-engine-tech-with-nasa-contract
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