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The use of the DNA for controlling nanorobots is an interesting idea
DNA is like a chemical qubit
The DNA nucleobases are A (Adenine) C (Cytosine) G (Guanine) T (Thymine). So the DNA can store data in the 0,1,2,3 layer or state form. At the end of this chapter is the link to the article, which tells more about the structure of the DNA.
And that means DNA could input data straight to quantum computers. When we are thinking that thing the DNA can from the chemical qubit, what can store data very effectively.
The quantum computers can benefit the DNA molecule in the internal data storage. And maybe that thing is the new type of the fastest data storage, which can benefit the entire capacity of quantum computers.
The nanomachine can be the genetically manipulated bacteria, which have certain missions. The bacteria can be controlled by microchips or artificial DNA. Nanorobots can be carbon or plastic core robots, which are like small submarines. Or they can be the silicon drops, which are controlled by microchips. Also, nanorobots can be bacteria, which is equipped with Kevlar or graphene armor, which protects them against the attacks of other cells.
Things like viruses can also be used to make nanorobots. In those cases, the protein feet of the virus would equip with iron bites, and that allows to use of them as a little crane. When the electricity will connect to the object, what is the middle of that adhesive organ, it would pull to that thing. If the electricity will conduct to the virus, that thing can move the object, anywhere the controller wants.
https://en.wikipedia.org/wiki/DNA
Image I: https://www.kurzweilai.net/lipid-dna-origami-may-lead-to-advanced-future-nanomachines
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There are two ways to use DNA molecules for controlling devices.
1)Use the DNA like perforated tape, which is red by using lasers or scanning tunneling microscopes. That system can install in small-size devices.
The function of this kind of system is similar to the performed tape machine. And when the system recognizes a hole in the DNA, it would detect it as 1 and the closed part is marked as 0. In that case, the DNA must only have a certain form, that it can control the devices.
The creation of the DNA makes it possible to make copies of the chemical programs by using the same processes that the cell is using when it copies the chemical program of the natural DNA. The same way would the artificial DNA copied.
2)Use the genetic code of the DNA for controlling bacteria or some kind of robot.
The nanomachines are the thing that is sometimes a combination of the bacteria or some cell organelles of other cells, and the core. That thing can be controlled by DNA very effectively.
So the system can be controlled by the DNA. But making that kind of thing is difficult. There are no meanless base pairs in the DNA, which means that the actions of every single base pair must be known because the mistakes like putting the wrong base pair in the wrong place can disturb the actions of the nanomachine.
But the problem is how to make the DNA, what can control the nanorobot? The best way is simply to make the artificial DNA by connecting the bites of the DNA, which has the wanted features. And that thing requires that the function of every single base pair in the DNA, that creating the chemical program by using artificial DNA is possible.
Things like macrophages can make things like remove wanted cells or dirt from nanomachines simply by marking those cells or dirt by using the chemical marks. That the immune defense uses to mark unwanted tissue or some waste. So the helper T-cell can equip with the microchip, and the system can drive to that place.
And then the T-cell can mark those points that are wanted to remove by using the antigens. Then macrophages can remove those areas. The thing would make it possible to create a large number of parts for the nanomachines.
Image II: https://en.wikipedia.org/wiki/DNA
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