Single cells can learn things.

In some visions, the DNA pair or the protein pair can used to create the photons or acoustic bubbles between them. Then quantum computer can use those bubbles to make the quantum entanglement. That means the DNA or protein can be used as tools for acoustic qubit systems. But when we see that single cells can learn things we are facing an interesting thing. 

If that learning process is based on pressure that kind of acoustic system can be used to program cells. In some visions, the acoustic systems can control cells. 

Things like slime mold are things that show that the brains and neurons are not required in the learning process. And now researchers found that even individual cells learn things. That allows for improved medical research. The system can teach cells to find and terminate non-wanted cells. 

That allows creating. The control systems for nanorobots. The ability to learn. Makes it possible to create cells that operate as miniature robots. Those systems can clean the blood vessels from waste. 

This is one of the biggest breakthroughs in the research that can revolutionize nanotechnology and many other things. A short time ago. Researchers found that the neurons are not only cells that can store memories. Other tissue types participate in that process. 

Researchers noticed that the nervous system in the kidneys and nerve tissue cells can learn things. That thing can be a breakthrough for restoring brain damage. But the thing. That the single cells can learn. Is the key. To open new dimensions to the learning of other species. 

The big question in evolution is this. When did the species start to learn? Do things like amoebas and vegetables learn? The slime mold can learn things. So, can amoeba or some bacteria learn things cognitively? Those new findings can also make it possible to find out how things like bugs learn how to avoid their predators. And that can make it possible to create new ways to destroy harmful insects. Or program things. Like mosquitos to avoid malaria. 

The cell can store its memories in the DNA double helix or the protein helix structures. That thing makes a big advance in nano- and biotechnology. If researchers can crack this process. They can teach cells to deny things like virus entrance to the cells. The viruses can otherwise reprogram cells and make them make new things. 

The ability to teach cells will give new ways to fight against cancer. If cells include cognitive skills. The system can program them by using signals that the cell uses to learn. DNA-based learning is the thing. That requires the ability to change the DNA from those cells. That reprograms cells. 

https://scitechdaily.com/mind-blowing-discovery-scientists-discover-that-memories-are-not-only-in-the-brain/

https://scitechdaily.com/single-cells-can-learn-a-revolutionary-discovery-in-biology/

The metal-binding proteins might be the origin of the first lifeforms on Earth.

Image: ScitechDaily/Profound Discovery on Origins of Life on Earth – Evolution of Metal-Binding Proteins

The metal-binding proteins might be the origin of the first lifeforms on Earth. And those molecules can give new power to nanotechnology and medicines. 

The metal-binding proteins are the thing that can make the life of the first lifeforms possible. Those proteins give visions also for extraterrestrial lifeforms. And the protein that is a binding metal can play a key role in the new self-repairing nanostructures. If we think that the nanostructure is forming of carbon fiber. And then there would form the hole in the structure of the carbon chains there is the possibility that these kinds of proteins are playing a key role in self-repairment. 

Those proteins install to the end of that carbon fibers. And then those proteins can make contact with liquid there are metals. After that to the carbon chain will conduct electricity. Or the magnetic field will use to put those carbon chains in position. Also, there is the possibility. That in the future. Those metal-binding proteins will use to remove poisonous metals from the water and ground. 

The metal-binding proteins are also very dangerous if they are in the blood vessels. Those proteins can remove iron from the hemoglobin. And that thing causes death. So those proteins can use as the new type of chemical weapons. Or they can use as cytostatic. The idea is that those proteins will inject into veins that are transferring nutrients and oxygen to the tumors. That protein will deny the hemoglobin can transfer oxygen in that tumor. And it can destroy those cells. 

Nanomachines can give a cure for cancer. 

The origin of life on Earth will give ideas for modern nanomachines. When we are thinking possibility to produce the proteins that are binding metals by using biological components that things can use to give a cure for cancer. Genetically engineering can make it possible to create super immune cells that can destroy cancer cells that use nanotubes for sucking mitochondria from the immune cells. 

One of the versions is to connect the genome that makes ricin vegetable to create ricin in the immune cells. Those "tuned" immune cells can be microchip-controlled. This system can turn the cancer cell's ability to steal mitochondria from immune cells against it.  The idea is that the ricin molecule would be behind the pseudopods that the immune cell uses to detect the cancer cell. And when the nanotube is starting to pull the mitochondria in the cancer cell it would also get ricin molecules in it. 

There is the possibility that the ricin-creating genomes would connect the mitochondria of the immune cell. Then there is the suppressor that denies the ricing creation. The cell can create a protein that cuts ricin when it's in the immune cell  But when it will transfer to the cancer cell. That activates the creation of the ricin. 

That thing causes the death of cancer cells. Another version is to use the microchip-controlled basils or amoeba and then that amoeba can shoot the ricin or pepsin in the cancer cell. Nanotechnology makes it possible to create nanomachines that are sucking the cell organs out of the cancer cells. Or they can simply cut the membrane of the cancer cells open. 

https://scitechdaily.com/profound-discovery-on-origins-of-life-on-earth-evolution-of-metal-binding-proteins/

https://scitechdaily.com/cancer-cells-use-tiny-tentacles-to-suck-mitochondria-out-of-immune-cells/

https://thoughtsaboutsuperpositions.blogspot.com/

How to slow down the olding process?

In the image above the nanomachine is fixing the DNA. Maybe that kind of situation is possible in the future. 

Forever continuing youth is the dream of mankind. And there have made many theoretical and more or less possible pieces of research. About the thing how to deny olding? Archeologists have searched the cradle of youth. 

And the robot specialists are introduced to use nanotechnology. For chancing the DNA inside the cells. But the last case seeming a complicated thing because that operation is required billions of nanorobots. 

But it is possible to change the DNA in the nucleus of the cell. The system pulls out the old DNA. And then another stylus will inject the replacing DNA into the nucleus of the cell. 

The thing that can keep cells young is the next in the bioscience. Denying olding is the thing that gives great opportunities for the people. The thing that causes olding is that the DNA inside our cells is damaging. And that thing means that there will be loss in the genetic material. The genetic material is acting like computer code. It transmits genetic and heritable information over the generations. When enough information is lost that in the chain of generations. 

That means that the cells are losing their form. And they cannot fill their mission. Making the DNA resist the radiation and chemical effect is theoretically very easy. The denying oscillation of the DNA is the only thing that is needed. But how to make that thing in practice? Making practical solutions is more difficult than we ever imagined. 

One of the versions of how to deny olding is just close every cell in the pressure chamber. And in that case, the pressure will deny the olding because it stabilizes the DNA. This thing can use for storing individual cells but it's not suitable for use in the human body. 

There is also made test by removing the damaged DNA. And then replacing it by using the stored DNA. The process itself is quite easy. The nanomachines will remove old DNA. And the other will inject the new DNA into those cells. 

But for making that process for humans is more difficult to make than for the individual cells. In some plans, the stored DNA of the person will use to make an artificial virus. That will make the person young by replacing the damaged DNA by using the fresh DNA taken from the storage. That stable storage could be some kind of cryogenics plant. 

Or in some plans, the DNA would launch to the Kuiper Belt or dwarf planet Pluto. In those places, the DNA would remain almost forever. If the system can protect storage against cosmic radiation. But the problem with the virus is that the DNA of the cells must remove before the replacing DNA will inject into those cells. 

In that case when the human is born the DNA of that person will store in stable places. And when the cells are getting older that stored DNA will copy by using the PCR. Then nanomachines just replace the old DNA by using the new and fresh DNA. The problem is that the number of needed nanomachines is so large that the system would not work. But the idea is good. 

The nano-size scaffolding can slow down the oscillation of the DNA. But the problem is that the DNA must split when the cells are creating the descendants. So if the cell cannot create descendants. That thing can make more damage than good. 

When the proteins are reading the chemical code of the DNA that molecule must have space to crack. The nanostructure can deny that movement. Sometimes in introduced to make proteins or some kind of nanostructures that can support the DNA. 

The protein makes the outer supporting structure for the DNA. And the purpose of this molecule is to stabilize and make the structure of the DNA stronger. The protein-based nanostructure is acting like scaffolding. And if the system can deny the vibration of the DNA that thing can increase the person's lifetime. 

()https://scitechdaily.com/staying-young-scientists-discover-new-enzymatic-complex-that-can-stop-cells-from-aging/

Image:()https://unitedpharma.us/wp-content/uploads/2020/09/j4.jpg

3D technology using robot factories might work like the artificial organisms

http://crisisofdemocracticstates.blogspot.fi/p/3d-technology-using-robot-factories.html

http://crisisofdemocracticstates.blogspot.fi/p/3d-technology-using-robot-factories.html