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Cell-shock" technology is a delivery method that uses a small jolt of electricity to open the pores of the cells.
Normally, DNA molecules are too large to enter in the cell by themselves; it's a natural cellular defense to keep unwanted objects from entering.
But with the cell doors artificially stimulated, more of the genetic material in the vaccine is able to make it to a cell's replication center, increasing the number of antibodies the cell is able to produce.
This cell-shock technology is able to increase the uptake of DNA without the side effects normally associated with traditional vaccine types.
In other words, cell-shock technology is unmatched in its ability to safely, effectively, and economically deliver a genetically tailored vaccine to disease-ridden cells.
Normally, DNA molecules are too large to enter in the cell by themselves; it's a natural cellular defense to keep unwanted objects from entering.
But with the cell doors artificially stimulated, more of the genetic material in the vaccine is able to make it to a cell's replication center, increasing the number of antibodies the cell is able to produce.
This cell-shock technology is able to increase the uptake of DNA without the side effects normally associated with traditional vaccine types.
In other words, cell-shock technology is unmatched in its ability to safely, effectively, and economically deliver a genetically tailored vaccine to disease-ridden cells.
