>The injection contains a limited number of particules so, at most, that number of cells will be affected by the foreign RNA.
That got me thinking. Cells usually have a cycle of 7 days if I remember correctly... so if the mRNA was successfuly injected into a cell that only has a lifespan of 7 days, then theoretically the mRNA would theoretically also end its cycle along with it (but viruse's aren't alive anyway). So there's 3 scenarios I can think of:
Does the mRNA get duplicated by other cells? Does it 'die' after your cell dies? Does it continue injecting itself into other cells after the previous cell dies?
AFAIK, the RNA doesn't get duplicated. Cells will copy a gene from the nucleus (DNA) into a segment of RNA and bring it into the body of the cell. Cells will work with this segment until it degrades. I don't the timespan for the "vaccines'" mRNA, but what I'm seeing is an average of 600 minutes in general.
Natural virus do contain genes to encode proteins to do a bunch of stuff, including reverse transcription (incorporating changes into the DNA). The "vaccines" manufacturers didn't include in their documentation any indication that such genes are present; only the spike protein code is confirmed.
edit: mRNA should be destroyed after a cell dies. If the mRNA is gets outside a cell, it could enter another cell, but naked RNA isn't stable and may degrade before being translated (into a protein). This instability is the rationale for the lipid nanoparticle used to encapsulate the RNA, to ease the delivery of the payload.
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