AI and artificial life.

 

AI can modify life itself, and artificial cells can also modify AI. When we think about the DNA as data storage, we must realize that the problems are how to create synthetic DNA that involves only the things that researchers want. The other thing is how to transport. That data is sent to the microchips so that the computer can read that data. The answer can be electric impulses that the computer can read. AI is the tool that can read DNA better than play chess. The DNA is a linear data storage. And that makes the AI able to read it using microscopes and spectrometers. 

The AI can search data that is stored in CRISPR datasets. And search for similarities in the DNA that is taken from people or animals that have certain abilities. The AI can make virtual cells and simulations. About what kinds of things certain base pairs at certain points in DNA make. The AI can also connect and search data across species borders. And that allows developers to connect chlorophyll genomes to skin cells. That forms the green man. 

The same nanoparticles that can transport medicines to certain receptors can transfer the mRNA molecule in the same way in targeted cells. 

The AI can connect that data with datasets about the advancement of the fetus. Nanotechnology, along with advanced tools, makes it possible for the AI-controlled system to cut DNA and connect the new bits of DNA into those holes. The other way is to create artificial mRNA whose mission is to control the cell organelles. The system must just create the mRNA molecule that controls the cell organelle, and then that cell can create anything that the mRNA encodes it to create. 

The pathogen that can basically transform species into new ones can be based on the mRNA viruses or packages. Those mRNA molecules order the cell to create copies of itself. And then finally transform the cell into another. The mRNA is the tool that can order the mitochondria to decay in the muscle cells and that increases those cells' power. The artificial cells can also create neurotransmitters and electric impulses that allow the system to transfer memories into the nervous system. And basically, all our skills are based on memories. That is one of the things that we should know when we create new artificial species: are they bacteria or more complicated species? 

Natural bacteria cannot communicate or transmit data to the nervous system. But artificial cells can do that. And when we think about the ability to live forever or fix large-scale injuries, we must create neurons and then transmit lost data to those neurons. The single neuron involves only 1-5 bits of data. Thoughts and memories are formed in connections and states of those neurons, which humans have over 86 million, but our brains can connect those neurons into virtual neurons. 

And the connections between neurons are as important as the number of physical neurons. When a neuron is lost in an accident, the data that is involved is lost. The artificial cell can transport memories back into those cells. But that requires that the lost data is stored somewhere. And the second thing is that the system must have the ability to create artificial DNA that involves data that is normally stored in the brain. 

Things like intelligent tattoos that involve small-sized nanotechnical microchips or neurological microchips that are implanted into people’s brains can make it possible to return those memories. If the neuroimplanted microchips can transport data from memory centers to hard disks, it makes it possible to return those memories using artificial cells. That thing can restore the abilities of the badly damaged people. The brain-implanted microchips can also make it possible to read people’s minds. And that thing can turn humans more than we are today. 

https://www.freethink.com/artificial-intelligence/virtual-cells

https://pmc.ncbi.nlm.nih.gov/articles/PMC8539479/

https://www.quantamagazine.org/rna-is-the-cells-emergency-alert-system-20250714/

https://www.quantamagazine.org/what-can-a-cell-remember-20250730/

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

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

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

New supermaterials are game-changers.

"A section of the atomic structure of a cadmium selenide nanoparticle (left) with an incorporated foreign mercury atom; and an artistic representation of a highly magnified nanoplatelet with mercury defects at its active corners (right). Credit: B. Schröder/HZDR" (ScitechDaily, What Happens When You Swap Atoms? A Nanotech Revolution Begins)

Nanotechnology is the game changer. An ability to swap atoms precisely in the structure opens new tools for material technology and medical systems. Intelligent proteins that store their movement series and then make those movements backward make it possible to create nano-size robots that can go into individual cells. The knowledge of the weak force makes it possible to create things like materials that can repair themselves. The ability to connect memristors in the structure allows create of intelligent structures. 

The atom swapping and ability to affect the atom's ionization is useful in the layers like blades. 

That should remove things with very high accuracy. The idea is that the edge of the blade is made of ions. When the blade hits something electrons fall to fill those holes. 

And that makes the energy impulse to that edge. Nanotechnology requires the ability to create impressive things. 

Like nano-structures that conduct energy only in one direction. The idea is that the energy can move only one way if there are so-called energy stairs away from the energy hilltop. If the energy that travels from the hilltop is very powerful it transports those stading waves away.  But then energy must slide over those particles. If that does not happen that energy pulls those particles with it. 

"A new kind of memristor mimics how the brain learns by combining analog and digital behavior, offering a promising solution to the problem of AI “catastrophic forgetting.” (ScitechDaily, A new kind of memristor mimics how the brain learns by combining analog and digital behavior, offering a promising solution to the problem of AI “catastrophic forgetting".)

This makes it possible to connect computers and material structures to intelligent materials. And install data handling capacity into other materials.  

Supermaterials are things that can conduct impact energy out from structure very fast. If we think about saucer-shaped structures that edge is at a very low energy level and something hits the middle of that structure. That thing allows structure to conduct the energy out of it.

When we think about things like energy-absorbing materials there is the possibility to make materials that tie all energy in it's structures. But the next problem is that. If the energy level rises too high in the structure forms standing waves that push its particles away. And breaks the structure. If the system can remove or suck those standing waves away it will stand against almost all possible temperatures. 

The thing that destroys material is the standing wave that forms between its particles. The standing wave forms when material releases its energy. So the thing that destroys structure is not the heat or energy. The thing that destroys material is the end of the energy pump. When the energy pump ends particles in the structure release their extra energy. And that energy forms those fatal standing waves. But if the system can suck those standing waves out. That makes the structure stand. 

In some possible way to handle temperature is the thermal pump that transfers energy binder through the materials. The system can use things like airflow, electron flow, or laser beams that travel in the material. Those things will transport energy out from the material. 

It is also possible to create a structure that creates a standing wave or infrared wall that denies heat or IR radiation travel through that wall of coherent IR radiation. The long wires can move in and out of the material like a conveyor belt. It takes energy with it. And transports it to medium. 

"Artistic visualization of a crystalline rod made of the semimetal ZrTe5. There is a heat gradient from one end to the other. In its center, giant oscillations in its heat conduction are toggled by the magnetic field, which is generated by the electromagnet below. Credit: B. Schröder/HZDR" (ScitechDaily, A Quantum Metal Just Changed What We Know About Heat)

Schrodinger's cat state in the material makes it possible to create the nano-size diodes. In that state where the material is hot and cold at the same time energy travels in one direction. Those diodes can revolutionize the superconducting technology. 

The Schrödinger's state in material research. 

We can say that Schrödinger's state in material is that. That material is hot and cold at the same time. The heat travels to the cold part. That allows the material to stand against ultimate temperatures. We can describe Scrödinger's state in material by using a space probe as an example. If the space probe goes near the sun it melts because of the heat. But if the probe has a place where it can put that thermal energy. 

Theoretically, it can travel inside the Sun. The answer to the heat problem could be the extremely long wire that can transfer heat energy out from the probe. But there is another way to make the energy dump. That dump requires nano- or quantum balls that store energy inside them. So the system transforms thermal energy into kinetic energy. 

The new quantum materials are revolutionizing our way of understanding things like heat. The new types of quantum materials can create an energy flow that transports heat out of the system. That phenomenon is possible in the ultra-cold systems. But maybe that research brings us new products. 

https://scitechdaily.com/this-brain-inspired-memristor-could-finally-solve-ais-catastrophic-forgetting/

https://scitechdaily.com/a-quantum-metal-just-changed-what-we-know-about-heat/

 https://scitechdaily.com/weak-forces-super-materials-the-breakthrough-changing-material-science/

https://scitechdaily.com/what-happens-when-you-swap-atoms-a-nanotech-revolution-begins/

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

The new artificial plume robot can act as the ultimate observation tool.

The new light-driven robot looks like a plume. Its controllers control that machine by using light. The robot itself looks like a plume. That makes it very interesting. The artificial plume can land on the human body and observe things like neural electric signals. That new nano- or miniature robot can operate along with quadcopters that are transmitting signals to it. 

The light gives power to that robot, but the same light can use to give commands to that robot's tiny computers. And that means they can slip into houses and other things. Those tiny robots can interact with larger quadcopters. And they can be the ultimate couple in the recon missions. 

Miniature robots are always very interesting tools. And there are many problems with those systems. But those systems have a big opportunity in observation, recon, and all kinds of things. 

The first one is how to make microchips that are agile enough. Those miniature robots can collect samples from liquids like oils. They can check if the person is alive. And they can also operate as recon and intelligence missions. If those systems have seismic sensors they can listen to the surface oscillation and send that data to the headquarters which can be on another side of the Earth. 

The large group of miniature robots can also use to fix holes in the ship's hull or even in flying aircraft. The miniature robots will cover the hole and act as the support structure for repairing compression. And that kind of thing can make many things safer in the future. The field of miniature robots is unlimited. The imagination limits the use of those systems. 

They can observe chemicals or animals in nature. The miniature robots can make recon and intelligence missions. They can place themselves in the clothes and slip into the targeted building.  Those robots can slip into the computers and then send all data from those systems to their operators. The miniature robots can also use to give things like botulinum injections to targeted people. And that kinds of things are making them extremely dangerous. 

Miniaturized robots are the next-generation tools for many things like sensing air pollution, and searching for fire in buildings. Observe rooms and tack unauthorized people. Or they can simply observe air quality in tomorrow's buildings. 

https://scitechdaily.com/magical-marvel-tiny-fairy-like-robot-flies-by-the-power-of-wind-and-light/

https://shorttextsofoldscholars.blogspot.com/

Topology, data science, and free energy make new intelligent materials possible.

The key element in the nano-scale computers and microchips is to create enough small data images and keep those data images in the form. If we want to create liquid machines that can take any form. There is a need to create different individual data images for each entirety's participant.  

If we want to create a liquid machine that can take any form researchers can use two methods. 

*Silicon-based nanomachines

*Computer- and nanomachine-controlled cells. Those cells can involve nanomachine that encodes data to the cell's DNA. That kind of system can create an artificial chorale. 

When the cyborg cells are in the correct position relative to each other.

And an entirety makes the right form. The system will get the order to create the core. And that thing can turn biological cyborg material from theory to reality. 

********************************************

When researchers are developing new intelligent materials that can change their form and fix themselves. Those people need small-size nanotechnical microprocessors and nanotechnical mass memory. That controls the operations of those particles. 

The new intelligent materials are formed of structures that look like bacteria. The small silicone machines are taking their place in the entirety. The silicone-based nanomachines can use for making silicone amoebas that change their form. 

The living cells can also create the forms when controllers want. In that case, the cells must be microchip-controlled. Maybe the participants of the entirety would be basils. That is controlled with microchips. 

Or maybe there is a nanomachine or nano-factory in every cell. And then the nanomachine encodes the wanted data into the DNA. That thing makes it possible to create a structure that can take any form that developers want. The nano-size microchips can use also bioluminescence light from shining cells as an energy source. 

Researchers used an extended Landau free energy model for making nano-scale structures. There are two types of energy. The energy that free. One version of free energy is radiation. Or another version is energy. That is stored (connected) to material or some process. That system must release non-free energy somehow before it can be useful. 

Sometimes free energy means to heat or some other energy. That formed in the process. But that energy will not return to process or turn to the material. So the free energy just flows around. So if the process forms thermal energy it can use as power. 

That kind of reaction is happening when some material like gas is burning. When material burns it connects with oxygen. That reaction forms heat which can conduct to water that vaporizes and then conduct to turbines. 

Things like photons carry energy. And some description of free energy as energy that is not participating process. 

Nano-size microchips can use things like electroluminescence as the power source. And that thing makes this type of thing interesting. 

By the way...

The helium-steam turbine can use in Pluto conditions. 

One of the most interesting. But still theoretical power supply system is the steam turbine which uses liquid helium. There is a biological component in the small platform. The biological processes in that small platform create temperature. 

And then liquid helium will deliver over that platform. The biological temperature causes the vaporization and expansion of that gas. That system can operate in extremely low temperatures where helium turns to liquid without energy. 

Of course, helium will freeze that biomass. But there can be other platforms that can replace the frozen platform. And then new organisms can deliver to that base. 

https://www.sciencedirect.com/topics/mathematics/landau-theory

https://scitechdaily.com/scientists-develop-an-extended-landau-free-energy-model-for-advanced-materials-design/

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

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

Images from the top: 

https://scitechdaily.com/scientists-develop-an-extended-landau-free-energy-model-for-advanced-materials-design/

https://scitechdaily.com/scientists-develop-an-extended-landau-free-energy-model-for-advanced-materials-design/

Tiny DNA-based "nano transporters" can be programmed to treat cancer.

"The DNA-based nanotransporter developed by Alexis Vallée-Bélisle and his team can transport and deliver precise concentrations of drugs: in this picture, doxorubicin, a chemotherapeutic drug. These nanotransporters can also be attached to specific biomolecules to optimize drug distribution. Here, we see a nanotransporter (white) attached to albumin (pink) to maintain doxorubin (light blue) in blood circulation. Credit: Monney Medical Media / Caitlin Monne" (ScitechDaily.com/Breakthrough in Tiny DNA “Nanotransporters” Chemically Programmed To Treat Cancer). The reseachers can use the same transporters for transporting another DNA bites to absolute rightt positions.

The new DNA-based nano-transporters can chemically manipulate to treat cancer. DNA-based medicals can be artificial viruses that are slipping into the wanted cells. Then the DNA, which is programmed cell death can connect itself to the cancer cells or bacteria's genomes and order cancer cells or bacteria to die. 

But the same nanomachines can use to reprogram cells. And that thing makes those nanosystems even more interesting than just for a new type of medical work. Artificial viruses can use to reprogram stem cells. And those kinds of things can be the next-generation tools for injury treatments. 

The DNA that is transported to some cells can turn them into another one. There is the possibility to turn stem cells into things like neurons simply by switching their genome. But the problem in the case of injuries is that there is needed lots of stem cells. And that thing brings one of the most radical therapies to my mind. 

What if we would turn our cells into cancer cells and then return them to healthy cells? That kind of ability makes it possible to create lots of needed cells in a short period. The idea is that the victims' cells will turn into cancer cells in cell cultures. 

And then system replaces the DNA of those cells by using healthy DNA. These kinds of therapies are the next-generation tools for fixing things like neural damage. The problem with neural damage is memories or skills that those lost cells involved are gone. Those neurons can also reprogram before they are injected into brain tissue. 

The next-generation stem cell therapies can also use to produce neurons or sterile neurons for the microchip industry. Those neurons can communicate with microchips. And that makes it possible to create more powerful and flexible computer systems. 

https://scitechdaily.com/breakthrough-in-tiny-dna-nanotransporters-chemically-programmed-to-treat-cancer/

https://scitechdaily.com/epigenetics-research-uncovers-secrets-that-allow-researchers-to-revamp-stem-cell-reprogramming/

https://news.wisc.edu/implanted-neurons-grown-in-the-lab-take-charge-of-brain-circuitry/

The new sensors benefit information about living organs and quantum technology.

Image 1

Researchers found near atomic-scale detail in the mechanism of hearing.

Researchers found near atomic-scale detail in the mechanism of hearing. This allows us to create new types of sensors. Which are suitable for robots. Those systems make it possible to connect the microchips to the sensors of some animals. And those systems can send data on how those animals see and hear things. 

Knowledge of some senses and their interaction with the neural system is an important thing. The problem with small-size sensors and biological sensors is solving how the sensor interacts with electric systems. 

If researchers can someday build an artificial ear that works in the same way,  as the real ear by using similar biological systems. They can make new types of observations about noise. By using real ears. Researchers can test how disturbing or painful some noise is. But those systems can also connect with robots. 

Image 2:) 

https://scitechdaily.com/scientists-discover-mechanism-of-hearing-in-near-atomic-detail/amp/

The new quantum sensors are making a revolution in science. 

Researchers manipulated light on the nanoscale. And that works as a pathfinder for new type 3D screens and VR systems. This also makes it possible to create new scanners that can scan nanometer-scale structures. And that thing can be useful in the new nanomachines. 

But the ability to manipulate light in the nanoscale makes it possible to create a new type of sensor. If we think about the 100% reflecting mirrors and nano-size laser rays we could create a new version of the telescope, that observes gravitational waves. That kind of telescope might have a honeycomb structure where the extremely thin laser ray is jumping from the walls. 

And that thing makes it possible to create a laser ray that length is the same as the Ligo sensor, but the package can be more compact. The new type of gravitational sensor could be the cube where laser ray jumps between walls. If that kind of thing can be possible. The gravitational waves can benefit easier. Those waves can give information about things that are happening inside neutron stars and black holes. 

In those sensors, the quantum entanglements can make the things like laser rays.  Those systems can get an accuracy That is higher than ever before. Quantum entanglement acts like a laser ray. When energy hits it the sensor detects that change. 

The new quantum sensors can also replace the GPS. Those quantum sensors can be next-generation navigation tools. Those quantum navigation tools are still under research. 

The idea of those systems can be seen in image 2. There is a network of quantum transmitters at certain points on Earth, and the system detects the position of those transmitters. There is the possibility that the Earth's magnetic fields are unique a certain points on Earth. That thing can detect by ultra-accurate sensors. 

https://scitechdaily.com/breaking-an-optical-rule-engineers-manipulate-light-at-the-nanoscale/

https://scitechdaily.com/entanglement-enhanced-matter-wave-interferometer-now-with-double-the-spookiness/

Image 2:) https://scitechdaily.com/high-tech-quantum-sensors-navigating-when-gps-goes-dark/

https://onlyimaginationlimitsinnovation.blogspot.com/

10 000 times quicker production speed will be a boost for medical nanorobots.

The 24-h process of stem cells attaching to the microrobot surface (top) and Cell staining results to identify cells attached to the microrobot surface (bottom). Credit: DGIST (Daegu Gyeongbuk Institute of Science and Technology) (Scitechdaily.com/10,000 Times Quicker: New Breakthrough Could Change the Field of Medical Microrobots)

Nanorobots are powerful tools. But the problem is how to control them and how to produce enough nanomachines. 

"There are many approaches to building microrobots with the goal of minimally invasive targeted precision treatment. The most popular of them is the ultra-fine 3D printing process known as the two-photon polymerization method, which triggers polymerization in synthetic resin by intersecting two lasers". (SciTechDaily.com/10,000 Times Quicker: New Breakthrough Could Change the Field of Medical Microrobots)

New production methods can increase microrobot production. And that can make medical nanorobots more common and effective. When the number of times when the nanorobots increases. Researchers can get more data and experience how to control those things. Microrobots are extremely powerful tools. 

They can carry medicals and things like stem cells to the right position in the human body. And they can also release medicines just at the right point in the human body. This thing makes it possible to create new types of medicals. Nanomachines can also remove tumors simply by cutting the cancer cells in pieces. But the problem is how to produce those systems. And another question is how to control those machines. 

DNA plasmids are a good tool for controlling organic nanomachines. When an organic nanorobot reaches the hostile cell there that system can simply push the enzyme fiber in that cell. And then that thing can destroy the targeted cells. In that kind of system, the fibers that it uses to move can equip by using some nutrients. That is only non-wanted cell use. The targeted cell will pull the nutrient inside it. 

And then that uncovers the enzyme that destroys the targeted cell. Or if the nanomachine is non-organic it can use kevlar fibers for that purpose. In that case, the kevlar fiber destroys the targeted cell. The abilities of nanomachines are limitless. But the problem is that they need new production methods. 

And another thing that is needed is a new thinking way. Building a large number of microchips and injecting them with bacteria is difficult. The DNA plasmid is a good tool for controlling the nano-size robot. But if somebody wants to create a chemical control code to control the miniature submarines that person must be careful. 

If there are some artifact base pairs. That thing can cause the nanorobot acts unexpectable. So researchers require more information so that they can make powerful and accurate tools for serving medical and other kinds of staff. 

https://scitechdaily.com/10000-times-quicker-new-breakthrough-could-change-the-field-of-medical-microrobots/

Images: https://scitechdaily.com/10000-times-quicker-new-breakthrough-could-change-the-field-of-medical-microrobots/

https://anewtonsapple.blogspot.com/

Nanotechnology and artificial intelligence are the ultimate combinations in medical work.

If medicines are equipped with nano-size sensors. That thing makes the system able to observe how chemicals are affecting cells. 

AI can follow the effect of medicine in real-time. That thing requires that researchers will inside put inside medicines the nano-size microchips that can measure things like the electric load of the cells. And those nano-size microchips can also search for things, like changes in the metabolism of the cells and other kinds of things. The nano-size submarines are even more powerful than those medicals. 

The UV-LED can destroy viruses. But it can also destroy bacteria. If the UV-LED slip into the cell it can give radiation to the DNA. And that thing can destroy bacteria as well as it destroys viruses. 

The nano-size submarines can take the miniature UV-LEDs near harmful cells. And those UV-LEDs can destroy the cell. There is the possibility that nano-size UV sources will put in the microchips that are slipping into the cells. And then the UV light will destroy the DNA of the targeted cell. That system can use a battery where iron and gold atoms are given electricity. 

That kind of system can make it possible to destroy bacteria and other harmful cells by using the WLAN or BlueTooth technology. But the nano-size submarines can also transmit images of the cells. And they can search how UV light affects cells that are under radiation. 

Or maybe the futuristic microtechnology can get its energy from the ion pumps. In that kind of system, the nanomachine will touch positive and negative ion pumps at the same time. And that thing can deliver energy to those machines. 

There is also the possibility that the nanomachine puts a small tube in the ion pumps. And that tube will lock those ion pumps open. Or nano-size robot can conduct all electricity from the surface of the targeted cell to itself. And that thing denies the ion pump's ability to work. There are billions of ways how the nanomachine can destroy its target. 

It can slip into the cell and destroy its internal organelles. The nanomachine can simply pull the internal organelles of the cell away. And that kills the cell immediately. Or it can pump the cell full of DNA or fibrine fiber. That thing can make the cell unable to operate. 

https://scitechdaily.com/uv-led-lights-can-destroy-coronaviruses-and-hiv-with-the-flip-of-a-switch/

https://scitechdaily.com/artificial-intelligence-can-accurately-predict-human-response-to-new-drug-compounds/amp/

Image: https://scitechdaily.com/artificial-intelligence-can-accurately-predict-human-response-to-new-drug-compounds/amp/

New nanocoating destroys bacteria very fast.

"The coating only needed one hour to kill 99.7% of a common pathogen called Staphylococcus aureus." (ScitechDaily.com/99.7% in Only One Hour – New Nanocoating Kills More Bacteria Faster)

The problem with bacteria is that they are turning resistant to antibiotics. Antibiotic-resistant bacteria cause epidemics in hospitals. So researchers must create other methods to use against those things. 

When bacteria are covered by using a nano-size "rivet jacket", it turns to terminate other bacteria. The effect of this "rivet jacket" is simply to make holes in other bacteria membranes. 

The term "nanocoating" means that the bacteria or part of it is covered by using a "plastic bag" or nanotechnical spikes. This thing denies the bacteria's ability to get nutrients. 

That new nanocoating destroys 99% of bacteria in less than an hour. The problem with nano-coating has been that there are lots of bacteria that the layer must cover. So the nanospikes are more effective tools for that thing. 

But there is another way to think. The medicine can cover bacteria by using nanospikes. In that version, the nano spikes will not kill the bacteria that carry them. When another bacteria comes near that bacteria which is covered by using that rivet jacket will destroy other bacteria. The idea is that those spikes that bacteria carry destroy other bacteria by making holes in its membrane. 

There are also plans to use things like genetically engineered bacteria to destroy other bacteria. The idea is that when bacteria are changing genomes the genetically engineered bacteria will split the genome that causes programmed cell death to targeted bacteria. 

And in some other versions, the bacteria can have the genome that makes cancer cells able to steal mitochondria from immune cells. In that model, the bacteria will steal mitochondria from another bacteria that comes to change genomes with that. This kind of thing can use to fight against bacteria that are resistant to antibiotics. 

Image and sources:

https://scitechdaily.com/99-7-in-only-one-hour-new-nanocoating-kills-more-bacteria-faster/

A new study tells where memories are stored.

The study shed new light on the process of memory recall. (ScitechDaily.com/Broad Implications: New Study Reveals Where Memory Fragments Are Stored)

A new study solved where memory fragments locate in the human brain. This kind of study can help to create technology that can help to minimize brain damage. The problem with brain cells is that when they have been destroyed. The memory fragments of those cells are destroyed. 

And that thing makes replacing damaged neural tissue difficult. Another study has solved how brain cells are forming. In animal brains the brain neurons that are formed together wed distinct connectivity and activity throughout the animals’ adult lives. 

That thing means, that the neurons are born in pairs keeping in touch their entire life. The neurons are formed in pairs because there should be an odd number of neurons in the brain. That thing eliminates the possibility that there is the same number of neurons in the case the brain must decide something. If every single neuron would have pair that thing makes it possible for the brain can lock. The odd number of neurons makes sure that the brain can make decisions. 

So what kind of thing can solve memories for the damaged neurons? 

In most cases, the lack of oxygen causes brain damage. There is the possibility that in the future nanotechnology can transfer mitochondria to those damaged neurons. And if the cloned neurons can move near them they can transfer memories to those new neurons. 

The idea is that genetic material that is taken from damaged cells can use to clone new neurons and the memories from those cells can save by using nanotechnology. Those memories can be stored in electric form or the system can transfer the molecules to the new neurons. That kind of system can be a reality in the future. But that thing would be far away in the future. 

https://scitechdaily.com/brain-neurons-born-together-wire-and-fire-together-for-life/

https://scitechdaily.com/broad-implications-new-study-reveals-where-memory-fragments-are-stored/

Nanotechnology and ammunition

Image 1)

Antimatter makes it possible to create the hypersonic rifle bullet. 

The Boeing-Nammo corporation tested new air-breathing ramjet-driven ammunition. The next tool in the sad series of military technology can be antimatter ammunition. The "Teller's bomb" or antimatter weapon is the magnetic chamber where is antimatter. The magnetic system keeps antiprotons or positrons away from its wall. 

And that makes it possible to create a bullet-size missile that can destroy the entire city. There is calculated that one gram of antimatter can turn the entire Earth into a molecular cloud. So the size of Teller's Bomb could be smaller than a cigarette.

A miniaturized antimatter rocket makes it possible to create the hypersonic rifle bullet. In that case, the rocket of the enhanced range ammunition's rocket engine is changed to an antimatter rocket. 

And that makes it possible to create a rifle that can shoot even over the oceans. If the system uses fire-and-forget technology that kind of ammunition can make it possible to create a rifle that can shoot a person from another side of the Earth. 

Nanotechnology makes it possible to create a small magnetic chamber where the antimatter can be stored. The system can use a small cloud of antiprotons or positrons and that system can use as a miniature nuclear weapon. In that case, the rifle has the same firepower as a nuclear missile. 

Antimatter can also give an ability to create the antimatter rocket that accelerates the regular bullet to hypersonic speed. The idea is that the small particle accelerator creates antimatter in the bullet just before use. Then the magnetic chamber keeps them away from the wall of the chamber. When a bullet is used the air will react with antimatter and that energy will conduct backward through fullerene nanotubes. This is one version of the use of nanotechnology in military work. 

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

 Image 1:) Smithsonian institute

Image 2:) Wikipedia, Barrett M-82

https://designandinnovationtales.blogspot.com/

DNA is the ultimate tool in nanotechnology.

Image:)

 DNA-based nanostructures are the most powerful element in nanotechnology. DNA self-assembly is making it possible. That those materials can fix themself without outside tools. It's possible to use cells to produce DNA and connect that cell to a nanomachine that pulls this extremely small bioprinter where the controller wants to move it. The DNA molecule can use in the nano-size power looms, and the DNA can use to produce extremely thin and large-size structures. 

The living cells can create the DNA molecules and the nutrient is the thing that determines how much DNA the cell can create. DNA is a multi-use tool. That molecule can transport information. But it can also use as miniature springs between extremely thin material layers. The power-loom can create the DNA layer. And the system can put nano springs between those layers. 

The DNA molecules can form the DNA carpet. That can cover by using graphene bites. But the DNA structure is very strong and elastic without it. That kind of nanomaterial can be the most fundamental thing in history. 

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The DNA molecules can use in the next-generation nanotechnology kevlar. 

The structure of the DNA molecule is the spiral helix. That form makes the kevlar so effective in bulletproof materials. The spider cobweb filament is stronger than the kevlar. But the DNA molecules can be an even more powerful tool. The spider's cobweb filament can produce by using the same cells that the spider uses for making that thing. Similarly, the cells can make the DNA molecule. 

The DNA molecule-based structures are making it possible to create materials that can fix themselves. If the DNA carpet faces damage the nanomachines can fix those very easily. Because the DNA-based nanomaterial is like springs that are put in the form of canvas. That material is extremely hard to break. The DNA can connect with other materials which makes them extremely strong. That structure can also create by using DNA self-assembly. And then that system can push even large-scale structures airborne. 

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The DNA bites are making it possible to create the nanoscale rotors for the nanomachines.

Image 2: The DNA-based nano rotor. (ScitechDaily.com/Nanoscale Rotors Constructed From DNA – Smallest Flow-Driven Motors in the World)

The DNA bites are making it possible to create the nanoscale rotors for the nanomachines. The DNA bites are acting in the flow-driven system, and they can use to make nano-scale engines and even nano-scale induction engines possible. Those systems can rotate between two magnesite bites. 

Then there could be two bites of magnesite at both ends of the DNA. That system can use in the next-generation generators and engines that are meant for nanomachines. But the fact is that nanomachines are the tools that can make large entireties. And they can to use deliver electricity also in large-size systems. Of course, in those processes, the system requires an enormous number of nanomachines. 

DNA nanostructure can use to levitate large things above the ground. 

Image 3:) An illustration showing how DNA-self-assembling can use to create highly nanostructured 3-D superconducting materials. Credit: Brookhaven National Laboratory. (ScitechDaily.com/Making 3D Superconducting Nanostructures With DNA)

The DNA-nanostructure can also use as the nano-scale superconductor. Or nano-scale magnetic levitation system. The system has based on the idea that the 3D DNA-based nanostructure can act like an antenna. That antenna can push large structures above the earth. 

There is a possibility that the levitating system has two fullerene layers and the DNA-antennas are between those layers. Then the system will pull the DNA carpet below the craft or whatever wanted to levitate. That structure can also create by using DNA self assembly. And then that system can push even large-scale structures airborne. 

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The DNA can use as the support material in the fullerene tubes. The fullerene tubes can form over the DNA molecule. 

The DNA molecule can transform into superconducting material. DNA-based superconductors can make it possible to create a new type of quantum computer. The superconductors are required for making the solid qubit. The DNA-based superconductors that can operate at room temperature are impressive. DNA origami can use in DNA-based microchips. 

And that kind of thing can revolutionize nanotechnology along with things like aviation. The fullerene nanotubes can use for miniaturized rockets and especially antimatter rockets. The entire layer of the craft can cover by using nanotubes. And the annihilation can happen precisely in certain nanotubes that can make the revolutionizing abilities to change directions and speed. And the fact is nobody knows the limits of nanotechnology. 

https://getaboutcolumbia.com/in-dna-scientists-find-a-solution-to-building-a-superconductor-that-could-transform-technology/

https://scitechdaily.com/dna-origami-enables-fabricating-superconducting-nanowires-for-nanoelectronic-circuits-of-the-future/

https://scitechdaily.com/making-3d-superconducting-nanostructures-with-dna/

https://scitechdaily.com/overcoming-the-impossible-with-dna-to-building-superconductor-that-could-transform-technology/

Image:) https://scitechdaily.com/overcoming-the-impossible-with-dna-to-building-superconductor-that-could-transform-technology/

Image 2:) https://scitechdaily.com/nanoscale-rotors-constructed-from-dna-smallest-flow-driven-motors-in-the-world/

Image 3:) https://scitechdaily.com/making-3d-superconducting-nanostructures-with-dna/

https://designandinnovationtales.blogspot.com/

How do the DNA-based sensors work?

The DNA-based sensors use the DNA molecule as the sensor. The idea is that the DNA molecule or its head can hover around the layer and act like the stylus of an old-time LP player. In some versions of DNA sensors, there could be an iron bite at the end of the molecule. There is a possibility to use that iron bite to measure the magnetic field. There is the possibility that the radio waves are pointed to a certain target through that iron stylus. 

The radio (maser) wave will shoot to the iron that drives those radio waves to a certain target. The system can observe the reflection. But if the iron bite slides above the magnetized or electrically stressed layer the system can measure the electricity in that stylus. Or the system can measure the position of the DNA relative to the level. That allows operators to see the differences in the shape of the layer. 

When the layer goes farther the magnetic effect on DNA is turning weaker. And that affects the position of the DNA. The idea is similar to the magnet that is connected to the libra. When the magnetic layer is below it the distance to the magnetic layer affects the pulling force of the magnet. 

There is a possibility to observe the differences in the length and position of the DNA molecules by using the laser microscope that can measure the changes in the forms of that molecule. In some other versions of DNA-based sensors, The DNA will position around the measurable object. The DNA tweezers are based on the idea that the electricity will pull the last base pairs of the DNA around the object. In that kind of nanotechnical system, electricity will conduct to the object that must transport. 

In the measuring system the DNA position over the measurable object. Then the DNA molecule would rotate around. And the laser microscope measures the changes in the position of the last base pairs of the molecule. In the last version the ion will be shot through the DNA molecule vertically and the effects of that thing can notice by searching the effect of that thing on the DNA. 

The idea is similar to fullerene nanotube-based sensors. In those sensors, the laser light will shoot sideways through the nanotube. When the particle moves through that tube. The sensor detects its shape by using laser light. And that kind of system can find many new things from the world of subatomic and atomic worlds. 

Image and sources: 

https://www.scientiststudy.com/2022/04/dna-based-detector-could-precisely.html

See also: Maser, laser

The 3D nano-skyscrapers can be used to make the new type of microchips. And even small-size quantum computers that can operate at room temperature can be possible by using biocomputers.

Image 1) "Researchers from the University of Cambridge used 3D printing. To create grids of high-rise ‘nano-housing’ where sun-loving bacteria can grow quickly".

"The researchers were then able to extract the bacteria’s waste electrons, leftover from photosynthesis, which could be used to power small electronics. Credit: Gabriella Bocchetti" (ScitechDaily/3D-Printed “Nano-Skyscrapers” Help Bacteria Convert Sunlight Into Electricity)

The 3D nano-skyscrapers can be used to make the new type of microchips. And even small-size quantum computers that can operate at room temperature can be possible by using biocomputers. Those systems can revolutionize nanotechnology. 

The nano-skyscrapers can offer the space where the bacteria that transform light to electricity can live. That kind of bacteria that transforms sunlight into electricity can deliver energy to the nano-size microprocessors. The nano-size microchips can use synthetic DNA as the springs that are operating as miniature switches.  

The fact is that the nanoscale springs that can transmit electricity can also make it possible to make the nano-scale quantum processors that can operate at room temperature. In that case, the data is traveling through the nanostructure in wires. And each of the wires is the one certain state or layer of the qubit. 

The fast DNA replication makes it possible to fix errors in the quantum system. The nano-size springs make it possible that the system can use binary as well as quantum mode. So, at first data and data-handling instructions are transmitted to the system by using the binary mode. Then the system can start to use quantum states. 

When we are thinking about this type of quantum computer there is the possibility that they use only the lines of the qubit. If the operations of this type of quantum computer are limited in the number of wires. That thing is still more effective than binary computers. 

But bio processors can also benefit bioluminescence light. For making the states for the qubit. The tubes where bacteria are growing can quip with the fast-operating dimmers. Those dimmers can control the light level that transmits data to the photovoltaic cells. The system can operate similarly with cameras. 

The extremely fast-operating dimmers adjust the light level. And the shutter cuts the data line. There is the possibility to put the CCD (Photovoltaic chip) on the nanotube or nano-skyscraper structure. And there is a color filter that can adjust the light, open and close in each of the tubes. Each wavelength that the CCD detects can be a certain state of the qubit. 

Image 2) "Test tubes holding water samples glow green inside an illuminator, indicating contamination. Credit: Northwestern University"(ScitechDaily/New DNA Computer Assesses Water Quality: Genetic Networks Mimic Electronic Circuits). 

The same technology is introduced in image 2. Can use for making electricity for the miniature quantum computer. In that case, every tube would equip with a closer and dimmer that makes it possible to adjust the light that travels to photovoltaic cells. 

Even if that kind of quantum computer is not possible those systems can deliver energy to nano-scale microprocessors that require extremely low voltage. 

Maybe those processors are not so powerful as the central computers are. But they can give more abilities for things like nanorobots. The computer that can use bioelectricity is interesting because it can operate without outcoming electricity. 

The only thing that this kind of system requires is nutrients that are delivering food to those bacteria. So the system can use an artificial stomach where are the same bacteria as humans. And the system can eat the same food as humans, and transfer it to electricity. But if the bacteria is a so-called vegetable. The normal vegetable fertilizer is enough. For making the power for the nano-tech processor. 

If there is some kind of damage in that kind of system the fast DNA replication allows to clone more of those electric bacteria. DNA auto replication allows also make the spare parts for the system. And that thing can be the next-generation tool for robotics. The lightweight and powerful microchips are required in independently operating small-size robots. 

https://scitechdaily.com/3d-printed-nano-skyscrapers-help-bacteria-convert-sunlight-into-electricity/

https://scitechdaily.com/dna-replication-speed-limit-could-be-a-breakthrough-for-stem-cell-therapy/

https://scitechdaily.com/new-dna-computer-assesses-water-quality-genetic-networks-mimic-electronic-circuits/

Image 1) https://scitechdaily.com/3d-printed-nano-skyscrapers-help-bacteria-convert-sunlight-into-electricity/

Image 2) https://scitechdaily.com/new-dna-computer-assesses-water-quality-genetic-networks-mimic-electronic-circuits/

Hypersonic flight requires new types of materials.

Image 1) Image of what is believed to be a Chinese hypersonic aircraft. (CCTV screenshot)(https://eurasiantimes.com/china-determined-to-have-a-fleet-of-hypersonic-planes-by-2035/)

Nanotechnology is one of the most interesting things in aviation. The Chinese claim that they have hypersonic aircraft that are using plasma-ion thrusters. Plasma-ion thruster or electric jet engine is one of the most powerful engine types in the world. The idea of the system is that the air will ionize at the front of the engine. 

And then the magnetic accelerator drives it through the engine. The heat stress is very high at hypersonic flight. Friction is a very big problem in the speed of Mach 8+. There is the possibility that the aircraft's core is covered with nanotechnical rolls. Those rolls can make friction lower. But they can also be used to collect energy for electric jet engines. 

Synthetic dimensions and quantum technology can be far bigger steps for aviation than quantum technology. 

Those technologies are making it possible to create the ultimate stealth system. The idea of this system is similar to the neutron bomb. When a neutron bomb explodes the radiation will impact neutrons that are sending wave movement. The wavelength of that radiation is the same as the diameter of the neutron. But also protons and electrons are sending similar radiation if they are stressed by using electromagnetic radiation. 

The most futuristic spacecraft that was ever studied was the fusion-antimatter-powered system that looked like a saucer. There was the tokamak-type reactor around the edge of the saucer-shaped structure. And the radiation of that reactor was planned to use for creating antimatter. There was an image of that saucer in the book of inventions. But as you might know, technology was not at a high enough level at that time. 

The fusion reactor can use for pushing the quantum fields away from the spacecraft. And that thing makes it possible to create the WARP bubble around the craft. 

Another name for WARP-bubble is the synthetic dimension. There are two types of those bubbles. 

One is the traditional WARP-bubble or electromagnetic vacuum. That removes the doppler effect. Or shorts the wave movement ahead of the object. There is no wave movement in that bubble. 

Because there is no wave movement there is no Doppler effect. And nothing should limit the speed of the object. 

Another is the electron or proton cloud that is stressed with radiation. That thing makes the synthetic dimension around the object that can cause time dilation inside it. 

If we think the system is made by using graphene. That thing allows using the annihilation radiation to make the WARP bubble around that craft. But there is the possibility to deliver the antimatter around that craft. That thing makes the annihilation outside the structure that can rotate extremely fast. That fast-rotating structure can use for making the time dilation.

When the craft rotates near the speed of light in the WARP bubble. And then the bubble will be removed it causing the Cherenkov-effect. In that case, the outer edge of the craft moves a short time faster than the light. 

If annihilation happens outside the spacecraft that effect pushes the structures inside. The annihilation radiation can use to make the synthetic dimensions around the spacecraft. That thing makes those systems more capable than any other system. When we are thinking about the case that the electron cloud is stressed by electromagnetic radiation. 

That thing makes electrons send the same type of radiation with neutrons. All particles neutrons, protons, and electrons are sending radiation when they are facing radiation stress. And that radiation can make those objects invisible. Or it can cause time dilation inside that electron cloud. That means the spacecraft will surround by using a synthetic dimension that gives the pilot more time to react because the time moves slower in that "cube". 

https://eurasiantimes.com/china-determined-to-have-a-fleet-of-hypersonic-planes-by-2035/

https://interestingengineering.com/new-electric-jet-engine-actually-works-inside-the-atmosphere

https://interestingengineering.com/this-electric-jet-engine-could-lead-to-carbon-neutral-air-travel

https://www.nasa.gov/centers/glenn/about/fs23grc.html

https://scitechdaily.com/physicists-manipulate-electrons-to-create-synthetic-dimensions/

https://thedebrief.org/darpa-funded-researchers-accidentally-create-the-worlds-first-warp-bubble/

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

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

Image 1:)https://eurasiantimes.com/china-determined-to-have-a-fleet-of-hypersonic-planes-by-2035/

https://thoughtsaboutsuperpositions.blogspot.com/

How can quantum entanglement break time-reversal symmetry?

The simplest way to make that thing is to pull the quantum entanglement through the nanotube. Then that nanotube could turn into a Tipler cylinder. The fast-rotating nanotube can be used to conduct energy to the quantum entanglement that is made through that tube. 

The outcoming energy can create the condition where the quantum entanglement can bring information from the future. The speed of the cylinder would turn to high as possible. And then the outcoming radiation would finish the quantum state that brings data from the future. That thing can act as the telescope to the future. 

Diagram 1) Nano-size time dilator.

1) Quantum entanglement that is pulled through the nanotube

2) Nanotube that is acting as Tipler cylinder

The idea is that nanotube can act as the channel that conducts the particles. That is superpositioned and entangled particles will stress by radiation sent through the fast-rotating nanotube. This kind of thing can use to make time dilation. 

Time dilation is one of the most promising things to make successful quantum computers. Time dilation makes it possible to give the quantum computer time to make its operations. But the time dilation makes it possible to create the "telescope to future". 

Another version is to make the quantum entanglement or so-called quantum whip. In that system, the giant particle accelerator is making the situation that the most out particle in the quantum system is orbiting the center particle. The time dilation would affect the particle that travels in the cyclotron. And energy asymmetry would pump energy from that fast-moving object to the particle that is in the middle of the system. 

This kind of system is fascinating. And they can transmit information through time in the quantum systems. The quantum-size systems are not things. That can make humans travel to the future or past. Time dilation makes it possible to travel to the future.  

The problem is how to return information to the past. Without that ability sending things to the future means nothing for makers of that kind of experiment. 

By using a Tipler cylinder is possible to make the spacecraft that can make crew travel to stars. But that thing affects only to space inside that cylinder. If researchers would stop time in the craft that allows researchers to travel far in space. But that kind of thing doesn't affect time outside that craft. So if we want to travel to somewhere else than Alpha Centauri, the travel takes thousands of years. 

And even the aging of the crew can stop. That thing means that the senders of the crew. Die a long time before they return. That is the biggest problem in interstellar travel. The information that is coming from stars doesn't benefit the senders of the probes. But time dilation can be a useful tool for making successful quantum computers. 

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

https://thoughtsaboutsuperpositions.blogspot.com/

A couple of versions of the quantum annealing systems.

 

One version of the quantum annealing processor might be the two-layer graphene structure. In that processor, the magnetic qubits will hiver between the graphene layers. And nanotubes. Nanotubes are acting as the pillars and their purpose is to make a four-side magnetic field that stabilizes the qubit. The qubit can be the ion-electron or proton. The data will input those qubits by using the high-accurate electromagnetic wave movement. 

The data-input system might base the scanning tunneling microscope. In the point of each qubit would be the stylus that is transmitting and receiving the electromagnetic radiation. That system will make the qubits that are between those layers shine brighter. 

Diagram 1

XXX=Graphene layer

()=Nanotube pillars

*=Qubits

W=Antenna that sends the anneal transmission

M=Antenna that sends the anneal transmission

There is possible to make the Trapped-ion system. That system bases the idea that the atoms that should anneal would close in the solid cube. This kind of system could use the absolute pure silicon bite. In that class can position the atoms that should anneal. The anneal can make by using laser or radio waves. 

That glass can be made by using high-pressure systems. The air must remove from the structure. And then the silicon must press by using a mechanical press. There is the possibility to cover that structure by using an iron layer. And then the system can use the magnetic press. The magnetic system that is pushing those systems or using the cross pull can create extremely stable and hard structures. The atoms that can anneal can be put in the structure. 

The thing is that the super cold water cooled near zero-kelvin temperature. The metal or noble gas atoms can position in that pure water. This kind of system requires extremely low temperature. 

But otherways water is one of the best elements for quantum processors. The problem is the liquid form of water. For stabilizing that structure is needed very low temperature. And that thing is making necessary for creating a very powerful heat pump system. 

Image :)https://scitechdaily.com/images/Advanced-Computer-Memory-Chip-Artist-Concept-1536x1075.jpg

https://thoughtsaboutsuperpositions.blogspot.com/

Nanotechnology is one of the most powerful technologies in satellites.

Image: Pinterest

In the future, nanotechnology can be a dominating tool. For military and civil space programs. When we think about the recon satellites the biggest threat to them in the future is the low-orbiter anti-satellite system. Those systems can be missiles. Or they can be direct energy weapons like high-power airborne laser systems. 

The future systems might not be similar to what they are today. The nanotechnical systems would be the large group of smaller satellites that operate as an entirety. 

The next-generation tool for civil and military space technology. Could be scanning optical telescopes. 

Nanotechnology makes it possible to create satellites and other things that were impossible before. The telescopes that are more powerful than James Webb can use nanotechnology. The idea in those telescopes is that they are forming a linear telescope group. That telescope group is tied together in the wire. That wire is connected to the axle in the middle of the satellite. In those telescopes could be extremely long rotating wires that can rotate around.

Diagram 1

The scanning optical (Multi-mission) telescope

1) Optical telescope

2) Satellite and axle. There are communication systems in that part. 

Arrow= The rotational direction. 

In diagram 1 you might see the principle of that system. In the point of view of recon operations, we could say that those satellites could be the "Optically enhanced Rhyolites". Rhyolite satellites are the geostationary ELINT satellites. Those new satellites could have optical telescope sensors and active radar. 

The idea of the geostationary multi-mission recon satellites is that those systems can cover the same areas by using multiple sensors. When some important things are visible. Those satellites turn their telescopes to that point simply turning the mirror. And the same time the system can turn to use radar and passive ELINT sensors. 

So there is a large number of small telescopes. Connected to one satellite which is rotating them like a whip. That kind of satellite can have an extremely sharp system. And the size of the satellite can be very small. When that large telescope is needed the satellite can release those telescope groups. And when that large telescope is not needed the optical antenna can pull back in. 

Large-size telescopes can be extremely good tools for astronomical systems and civil and military recon satellites. The fact is that the large telescope that is farther than the moon can make many recon missions. The large size recon telescopes can be far away from the range of the low altitude ASAT systems. 

https://www.globalsecurity.org/space/systems/rhyolite.htm

https://phys.org/news/2022-01-nanosatellite-big-african-space-science.html

https://thoughtsaboutsuperpositions.blogspot.com/

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/

The genetically manipulated tomatoes contain neurotransmitters claimes one company.

   

The genetically manipulated tomatoes contain neurotransmitters claimes one company. 

The genetically manipulated vegetables are creating chemicals that are not normally in those vegetables. That thing is making a great step to genetic engineering. But there is the possibility that this kind of genetic engineering is used for criminal purposes. There is the possibility to connect genomes of the different species. So in the future flowers can produce medical chemicals like antiseptics or some antibiotics. 

Also, there is the possibility to produce synthetic blood. By using vegetables like watermelons or some other juicy fruits. In those cases, the genomes of the bone marrow cells will transfer to those vegetables. And their fruits will start to produce blood. This kind of vision can be true quite soon. 

Things like liver cells or stem cells can produce in vegetables. In that case, genetic engineering turns the pollen stockings into human stem cells. But in the wrong hands, genetic engineering is one of the most dangerous things in the world. 

And that can make it possible to turn harmless vegetables into drug vegetables. There is the possibility that the genomes of vegetables like corn can connect with the genomes of the Errading sin. 

That makes the corn produce LSD. Or the potatoes can transform to produce cocaine. The possibilities of genetic engineering are limitless. And that thing is making that technology dangerous. The drug mafia of South America has money. And it can buy laboratory that is making it possible to create new versions of the corn. And other vegetables that can form the product of those cartels. 

Advanced biological weapons like microchip-controlled insects can be extremely dangerous tools. When we are thinking about some horrible projects like the "Big Itch" and the "Big Buzz". There were tested insects like flea and mosquitos. Those insects can carry things like the plague, dengue fever, and malaria. 

We must remember that those researchers from the 1950s didn't have nanotechnology and genetic engineering. Which transforms the poison of those small insects into botulinum. That thing makes them the deadliest things ever. 

Genetic engineering is making it possible to create things insects. That is creating botulinum as their poison. The thing is that combining the abilities of the organisms has no limits. And in some visions, the insects like honey bees would get the poison stinger that injects the tetrodotoxin. That poison is making a person unwilling to resist commands. There is the possibility that the poison stinger is manipulated to take nutrients from the victim's body. 

https://futurism.com/the-byte/japan-gmo-tomato-psychoactive

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

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

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

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