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Scientists at Thomas Jefferson University showed that polymerase theta was capable of converting RNA messages into DNA, which it did as well as HIV reverse transcriptase, and that it actually did a better job than when duplicating DNA to DNA.
Polymerases were thought to only work in one direction DNA into DNA or RNA. This prevents RNA messages from being rewritten back into the master recipe book of genomic DNA. Now, Thomas Jefferson University researchers provide evidence that RNA segments can be written back into DNA via a polymerase called theta, which could have wide implications affecting many fields of biology.
"Our research suggests that polymerase theta's main function is to act as a reverse transcriptase," says Dr. Pomerantz. "In healthy cells, the purpose of this molecule may be toward RNA-mediated DNA repair. In unhealthy cells, such as cancer cells, polymerase theta is highly expressed and promotes cancer cell growth and drug resistance.”
So what happens if you inject yourself with RNA that codes for a cytotoxic protein, and then that RNA becomes integrated into your DNA?
Scientists at Thomas Jefferson University showed that polymerase theta was capable of converting RNA messages into DNA, which it did as well as HIV reverse transcriptase, and that it actually did a better job than when duplicating DNA to DNA.
Polymerases were thought to only work in one direction DNA into DNA or RNA. This prevents RNA messages from being rewritten back into the master recipe book of genomic DNA. Now, Thomas Jefferson University researchers provide evidence that RNA segments can be written back into DNA via a polymerase called theta, which could have wide implications affecting many fields of biology.
"Our research suggests that polymerase theta's main function is to act as a reverse transcriptase," says Dr. Pomerantz. "In healthy cells, the purpose of this molecule may be toward RNA-mediated DNA repair. In unhealthy cells, such as cancer cells, polymerase theta is highly expressed and promotes cancer cell growth and drug resistance.”
So what happens if you inject yourself with RNA that codes for a cytotoxic protein, and then that RNA becomes integrated into your DNA?
Obviously, RNA can be reversed transcribed into DNA. This is how viruses put their genetic code in your DNA all the time, and the basic mechanics behind a PCR test for COVID.
That scientists said mRNA cannot be reversed into DNA, and then put back into your genome should have really stated: "We're aware of no such mechanism."
It maybe time for some scientists to run tests on the vaccinated to ensure this is not the case. Microbiology is incredibly complex and there are many things we don't know, so everything needs to be tested instead of relying on current understanding for cellular processes.
Obviously, RNA can be reversed transcribed into DNA. This is how viruses put their genetic code in your DNA all the time, and the basic mechanics behind a PCR test for COVID.
That scientists said mRNA cannot be reversed into DNA, and then put back into your genome should have really stated: "We're aware of no such mechanism."
It maybe time for some scientists to run tests on the vaccinated to ensure this is not the case. Microbiology is incredibly complex and there are many things we don't know, so everything needs to be tested instead of relying on current understanding for cellular processes.
this is a fascinating article:
"Eight percent of our DNA consists of remnants of ancient viruses, and another 40 percent is made up of repetitive strings of genetic letters that is also thought to have a viral origin.”
Scientists at Thomas Jefferson University showed that polymerase theta was capable of converting RNA messages into DNA, which it did as well as HIV reverse transcriptase, and that it actually did a better job than when duplicating DNA to DNA.
Polymerases were thought to only work in one direction DNA into DNA or RNA. This prevents RNA messages from being rewritten back into the master recipe book of genomic DNA. Now, Thomas Jefferson University researchers provide evidence that RNA segments can be written back into DNA via a polymerase called theta, which could have wide implications affecting many fields of biology.
"Our research suggests that polymerase theta's main function is to act as a reverse transcriptase," says Dr. Pomerantz. "In healthy cells, the purpose of this molecule may be toward RNA-mediated DNA repair. In unhealthy cells, such as cancer cells, polymerase theta is highly expressed and promotes cancer cell growth and drug resistance.”
So what happens if you inject yourself with RNA that codes for a cytotoxic protein, and then that RNA becomes integrated into your DNA?
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