Researchers successfully modified cells in living adult animals.
Do you know the story where spiders created a silk skirt for the knight? In the modern version of that folklore, genetically engineered cyborg spiders make bulletproof vests for soldiers.
One of the genetically engineered tools is silkworm which produces the spider's web. That material is 6X tougher than steel. Mass production of that material revolutionizes bulletproof vests and thin but strong wires. In some visions, the genetically manipulated cyborg spiders can produce spider silk-like silkworms that engineers can use to make a canvas that is 6X stronger than steel. The cyborg spider just pulls the silk wires over the looms. And then the system sums up the tapestry.
New genetic engineering tools make it possible to reprogram adult individuals' cells. The RNA-based technology is used successfully to transform and modify the adult mice genomes. And that thing is the new tool for making new and more effective vaccines. In vaccine development, the RNA molecules can be used to reprogram the cell, which makes this technology more effective and faster than in regular vaccine production.
In regular vaccine production, the developers stress immune cells by using virus antigens that come from viruses. In that process, those viruses' genomes terminated by using UV light. The RNA-based technology researchers are looking for individuals who are immune to the virus or some other diseases. Then the researchers find the DNA sequences that are controlling the wanted ability.
And then they must just transform the DNA into RNA and inject that RNA into the wanted cells. That thing reprograms cells to resist infection. One of the ideas that researchers introduced is that the genomes that make bats resistant to cancer will transfer into human cells. The RNA-based cell program makes it possible to create antigens against viruses and bacteria very effectively.
Above: Microchip implanted, remote-controlled bug. Similar microchips can control spiders.
The ability to reprogram cells makes it possible to turn one species into another. That thing requires lots of RNA molecules.
The ability to reprogram cells makes it possible to create xenomorphs. The most well-known fictional xenomorph is a werewolf. If we want to transfer the species to another. And that thing is successful. It gives a new vision into the military and other kinds of things.
Or what if you could transform yourself into a wolf and back to a human? This kind of thing requires that the large group of cells will be reprogrammed by using RNA plasmids. And maybe that kind of technology is possible in the future.
If the system can reprogram all cells in the human body that thing can transform the human into a tree, like an oak. This idea is taken from the folk stories where ancient warriors transformed into trees.
The new methodology that allows reprogramming cells can theoretically be used to transform one species into another. This kind of idea might seem very scary and somehow bizarre vision. An ability to reprogram cells makes so-called xenomorphs possible. One of the classic xenomorphs is a werewolf.
In some models, the werewolf is a creature that has two DNA strands. When that creature wants to transform it reads another DNA strand. And then that creature can transform its shape. These kinds of things are visions. But the fact is that programming the cells makes it possible for creatures like animals can transform into vegetable-like trees.
https://www.mirror.co.uk/news/technology-science/technology/remote-controlled-cyborg-beetles-could-7658470
https://scitechdaily.com/amplifying-rnas-potential-mit-engineers-design-more-powerful-vaccines/
https://scitechdaily.com/scientists-successfully-genetically-modify-individual-cells-in-living-animals/
https://scitechdaily.com/6x-tougher-than-kevlar-spider-silk-is-spun-by-genetically-modified-silkworms-for-the-first-time/
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