Weaponizing spike protein against infecting virus itself could be the next-generation tool for vaccines and antivirus medicals.

"New research introduces the possibility that the virus' spike protein can turn against itself". (ScitechDaily.com/Outsmarting COVID-19: Weaponizing the Spike Protein Against Itself To Prevent Infection)

First, when we see the ideas like making the virus' spike protein make the "U"-turn and then destroy the virus' structure and genomes, we can think that this is a little bit too absurd. But there is the possibility. To connect some chemical marks to those spike proteins, which makes them unable to work. There is the possibility that vaccines that can connect small DNA bites to the cells can make the cell turn to destroy that spike protein. 

And that makes the virus unable to transfer its genome to cells. The spike protein can also connect to a chemical mark that makes an immune defense attack infected cells. The problem is how to connect those chemical marks to a virus population that is large enough. There is also the possibility to connect another protein to the spike protein, and when the spike protein impacts the cell that second protein's nano strings will be open, and it destroys the spike protein. 

The new antivirus medical base is the inhibitors. Those inhibitors deactivate the interaction between some proteins like spike proteins that virus uses to transfer their genomes to cells. In some other cases, the medicine transforms the ion pumps of the cells to destroy the genetic material that is in the virus. If the virus uses certain ion pumps. The medicine's molecule can be like a nano spring. Then that molecule will stand in the position over this ion pump. When a virus tries to transfer its genomes to the cell that nano spring jumps up. 

The molecule acts like a small drill that pushes back against the genetic material that the virus transfer to the cell. And then, it destroys the genetic material. In some versions, the spike protein will activate that nano spring. There is also the possibility that genetic code will make the cell itself destroy the spike proteins when it starts to produce viruses. That means the infected cell cannot produce viruses that can transfer their genomes to another cell. 

https://scitechdaily.com/a-universal-vaccine-new-computer-model-of-flu-virus-shows-promise/

https://scitechdaily.com/outsmarting-covid-19-weaponizing-the-spike-protein-against-itself-to-prevent-infection/

The world is going to universal vaccines. 

The world is going to universal virus vaccines. The new laser- and scanning tunneling microscopes are making it possible to research viruses more accurately. Those new microscopes can observe the cases like when the virus enters cells. And those observations can transfer to computer models and simulations. If multiple viruses use the same spike protein to transfer their genomes to the cells. 

That spike protein can use as a mark for immune cells. That thing makes it possible that the same vaccines can affect multiple viruses. Creating medicines against viruses is a similar process to vaccine creation. Some antivirus medicines are antibodies that are created by using cell cultures. The antivirus medical can act in three ways. 

1) The medicine can affect straight to the virus. In that case, some nanotechnical particles are connected to viruses. And then acoustic systems cause resonance that destroys the structure of those viruses. 

2) The medicine can mark viruses for immune cells. The idea is that medicine activates the immune system to fight against viruses more aggressively. The medicine is a little bit like a vaccine. 

3) The highly advanced genetically engineered virus can connect to the DNA that is infected with the virus' DNA. In that case, the DNA will turn the cell to acid for creating viruses. If the PH level of the cell is too low the cell itself may destroy viruses. But that thing is a very futuristic model. 

Producing medicals against viruses is difficult. The problem is that viruses have no metabolism. That means medicals cannot affect viruses the same way as they affect bacteria. 

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