Robot bacteria can give unlimited opportunities for many works.

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Robot bacteria can give unlimited opportunities for many works.

Hybridization of living organisms and computer is possible in nanotechnology. The bacteria is easy to turn into a robot by implanting it with a microchip. When we are thinking about opportunities, what that kind of microchipped bacteria can give in material research, and many other things. The opportunities of this technology are unlimited.

The genetically engineered bacteria can put to make the wires what are strongest what nature has ever created. The cells where is involved in the genomes, which makes them form spiderweb can drive precisely to the direction where the controller wants. And that kind of system can create the nano-textiles that can use to cover the nylon or cotton fibers. In this kind of case, those robot-bacteria are driven over the fiber. And they are making the network that can cover the layer. These kinds of things can give a new quality to those materials and make them stronger.

The bacteria that is creating the spider web can use to give a cure for tumors. It can create fiber, which denies that the blood flow to the tumors. The creation of the fiber can adjust by stimulating the cell organs with electric impulses. This kind of thing can use to give medical treatment. And the system can base the idea that the ion pump will deliver those fibers to the veins. When the tumor is gone, the microchip will give the ion pump order to pull those fibers back in. The bacteria should manipulate genetically that it cannot make descendants, which means that the genome that orders it to split must remove what makes that thing the robot.

The fact is that this technology is extremely lethal in the wrong hands. The nano bugs or robot bugs can inject that kind of bacteria into the human body, and the operators can adjust the creation of the fiber by using the remote control systems, that can install in the mobile telephone. So they can adjust the blood flow to brains or heart muscles whenever they want.

The requirement to benefit robot bacteria in medical work is to protect them against immune cells. But if that is done they can drive in the right spot in the human body, and then those bacteria can be used to melt the tumors. There is the possibility that the bacteria will cover by using some carbon-based nanonet. That net will protect those bacteria against immune cells. The network type structure will allow that cell can change nutrients. But how to make electricity to those systems?

The answer might be in miniature generators that would give electricity to the microchips that control bacteria. So could the answer found in the poison of rattlesnake?

The poison of the rattlesnake involves one interesting molecule, which makes it an effective hunter. That would start to rotate when it will get in the cell and that molecule is the thing that destroys the inner organs of the cell. The thing that makes that enzyme molecule interesting is that can equip with tiny iron bites and use as a miniature generator. The molecule would put in the nanotube, which is covered with iron atoms, and then it can give electricity to the microchips, which is controlling the movement of the cells.

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https://curiosityanddarkmatter.home.blog/2021/01/23/robot-bacteria-can-give-unlimited-opportunities-for-many-works/