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Programmable bacteria can revolutionize medical work.

 Programmable bacteria can revolutionize medical work. 

Programmable synthetic bacteria can be game-changers in many places from medical work to nature research and military applications. The customized cyborg bacteria can involve shell antigens that don't activate the immune system. 

The price of robot bacteria is low. The cyborg bacteria cost is less than 1$. And that thing makes them suitable for multiple missions. In nature, researchers can use those cyborg bacteria to remove pollution. They can also research microcosmos like underwater lifeforms smaller than water droplets. 

The cyborg bacteria can also operate as a recon tool. That slips in an enemy base and searches things that happen in there. Like full-scale robots, cyborg bacteria can act as swarms of full-scale drones. Cyborg bacteria swarms can clean polluted watercourse. They can observe many small things. And then those systems can act as the most brutal weapons. That humans ever created. 


"Investigators are developing synthetic programmable bacteria to help kill cancerous tissue. Credit: Texas A&M Engineering". (ScitechDaily.com/The $1 Cure: How Programmable Bacteria Are Reshaping Cancer Therapy)



In medical work, cyborg bacteria can used to transfer DNA into another cell. The genetically engineered bacteria that microchips control can move in the human body. Then it can transfer DNA into another cell using its small fibers. The DNA travels in hollow fibers. The cyborg bacteria can travel in the right position in the human body, and transfer the genetic material into the wanted cells and cell groups.

Robot bacteria can remove cancer tissue, but that thing can also fight against other bacteria. Those cyborg bacteria can also remove plaque from blood vessels and make many other things. They can carry another cell to the right position in the human body. And those things can also fix damage in blood vessels. The genetically engineered cyborg bacteria can create fibrine that closes blood leaks, and that fibrine can close blood vessels that transport nutrients to the tumor. 

The cyborg bacteria can also act as immune cells in case people's immune cells cannot operate. That thing can happen in leukemia or AIDS. And the cyborg bacteria can take immune cell's missions in case. There human own cells cannot operate as they should. The genetically engineered cyborg bacteria can create neurotransmitter transporters. 

The ability to make neurotransmitter-transporters can make it possible for neurons. That they can interact with those cyborg bacteria.  Cyborg bacteria can transfer data between the nervous system and other systems. And that thing makes it possible to create a neuraport-type system where microchips swim to the right point of the nervous system. And when those microchips are not needed anymore, they can remove themselves from the body. 


https://scitechdaily.com/the-1-cure-how-programmable-bacteria-are-reshaping-cancer-therapy/

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