DNA (in nucleus) is converted to RNA (outside nucleus) - transcription
RNA (outside nucleus) is converted to protein (outside nucleus).
However, there are “retroviruses” that use “reverse transcriptases” that can convert RNA TO DNA, whiich means RNA could enter the nucleus.
If COVID is a retrovirus which is looking like it might be, injecting mRNA could potentially enter the nucleus & cause DNA damage.
That would explain why people are testing positive after the vaccine.
The mRNA has entered the nucleus, incorporated itself into the person’s genome (DNA) & is now self replicating (creating spike protein).
DNA damage could cause serious problems (most likely cancer).
Oh cool! I need to look into retroviruses and how they are classified.
Thanks for the info. Even if it isn't, I wonder if the floating mRNA could be converted to DNA by a separate retrovirus. I would assume people test positive if the test is looking for the spike protein? I'm not sure what the test is looking for.
Só, you’re kind of right.
DNA (in nucleus) is converted to RNA (outside nucleus) - transcription
RNA (outside nucleus) is converted to protein (outside nucleus).
However, there are “retroviruses” that use “reverse transcriptases” that can convert RNA TO DNA, whiich means RNA could enter the nucleus.
If COVID is a retrovirus which is looking like it might be, injecting mRNA could potentially enter the nucleus & cause DNA damage.
That would explain why people are testing positive after the vaccine. The mRNA has entered the nucleus, incorporated itself into the person’s genome (DNA) & is now self replicating (creating spike protein).
DNA damage could cause serious problems (most likely cancer).
Let me know if you have any more questions.
Oh cool! I need to look into retroviruses and how they are classified. Thanks for the info. Even if it isn't, I wonder if the floating mRNA could be converted to DNA by a separate retrovirus. I would assume people test positive if the test is looking for the spike protein? I'm not sure what the test is looking for.