Wow. I am so relieved now you have assured us that "Unless integrase is coded for there's no way for a piece of DNS to be integrated into normal host DNA"!
BTW, who the fuck are you and what are your credentials?
Wow. I am so relieved now you have assured us that "Unless integrase is coded for there's no way for a piece of DNS to be integrated into normal host DNA"!
BTW, who the fuck are you and what are your credentials?
Please enlighten me as to how viral or bacterial DNA becomes integrated into host DNA in normal cells, the emphasis on normal i.e. not eternal cancerous cells?
How does RNA become integrated into host DNA in normal cells?
Fifty years ago "experts", perhaps like you, would have denied that viruses could integrate into the DNA of cells (of any type) and then they found Phage Alpha. Yes, I know that phages only infect prokaryotes. After that they found retroviruses and LINE1 elements in our DNA. So, that deals with the integration of RNA into normal cells. It happens, and you said so yourself above.
So now we are only arguing about whether or not Integrase is the only mechanism by which random DNA introduced via LNP transfection and jacked into the nucleus via an NTS can integrate.
In my opinion, we know only a tiny amount about these processes and anyone who says "there is no other mechanism by which these random pieces of DNA can be integrated during meiosis" is seriously ignorant.
We already know about template switching during transcription. How certain are we that during meiosis little pieces of DNA cannot be incorporated. We know there are molecular mechanisms to cause DSBs and to repair copy mistakes ... and from an evolutionary point of view the frequency of the introduction of foreign DNA into nucleus has been quite low compared to these modRNA vaccines. They introduce orders of magnitude more DNA than even DNA viruses can, so I suspect there has been little selection pressure to guard against foreign DNA fragments ...
Perhaps, as an "expert" you can provide arguments against that view.
Also this is discussing fragments of DNA rather than complete bacteria or viral genome. Similar fragments will be present in the insulin used by people with diabetes, should they stop?
Wow. I am so relieved now you have assured us that "Unless integrase is coded for there's no way for a piece of DNS to be integrated into normal host DNA"!
BTW, who the fuck are you and what are your credentials?
ha ha
I’ll bounce the question back to you
Please enlighten me as to how viral or bacterial DNA becomes integrated into host DNA in normal cells, the emphasis on normal i.e. not eternal cancerous cells?
How does RNA become integrated into host DNA in normal cells?
This has been covered many times and even in my Senate testimony.
Lim et al.
https://pubmed.ncbi.nlm.nih.gov/37100816/
Is people that took the vaccine gonna die? Surely there’s something that can be done
Fifty years ago "experts", perhaps like you, would have denied that viruses could integrate into the DNA of cells (of any type) and then they found Phage Alpha. Yes, I know that phages only infect prokaryotes. After that they found retroviruses and LINE1 elements in our DNA. So, that deals with the integration of RNA into normal cells. It happens, and you said so yourself above.
So now we are only arguing about whether or not Integrase is the only mechanism by which random DNA introduced via LNP transfection and jacked into the nucleus via an NTS can integrate.
In my opinion, we know only a tiny amount about these processes and anyone who says "there is no other mechanism by which these random pieces of DNA can be integrated during meiosis" is seriously ignorant.
We already know about template switching during transcription. How certain are we that during meiosis little pieces of DNA cannot be incorporated. We know there are molecular mechanisms to cause DSBs and to repair copy mistakes ... and from an evolutionary point of view the frequency of the introduction of foreign DNA into nucleus has been quite low compared to these modRNA vaccines. They introduce orders of magnitude more DNA than even DNA viruses can, so I suspect there has been little selection pressure to guard against foreign DNA fragments ...
Perhaps, as an "expert" you can provide arguments against that view.
I never said I was an expert.
Also I did suggest that HHV6 can become attached to host chromosomes.
Apparently other HHV can also do the same
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7120651/
Also this is discussing fragments of DNA rather than complete bacteria or viral genome. Similar fragments will be present in the insulin used by people with diabetes, should they stop?
Does insulin have LNPs and Nuclear tatgeting sequences.
No…
You are literally regurgitating arguments that we debunked 6 months ago.
If you continue to spam these comments with topics we’ve already destroyed, you’ll be blocked.
Fine block me.
I can tell this that this poison killed my 2 sisters and our son and a friend in USA
It appears you are not interested in saving people but the reverse
Also, discussed here:
https://www.youtube.com/watch?v=mjuGhqqJj-Q