Jessica Rose
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Podcast Appearances
there's just no emotional response and they don't even attempt to engage the possibility that there is a causal relationship. And the data really, really demonstrates that there is. And every single person knows by now they've heard somebody suffering from the shots or suffered themselves. I mean, this, this is, it's not a secret anymore. It's, it's, it's, um,
there's just no emotional response and they don't even attempt to engage the possibility that there is a causal relationship. And the data really, really demonstrates that there is. And every single person knows by now they've heard somebody suffering from the shots or suffered themselves. I mean, this, this is, it's not a secret anymore. It's, it's, it's, um,
It's preposterous that anybody would sit there and deny the possibility. Let's just put it that way.
It's preposterous that anybody would sit there and deny the possibility. Let's just put it that way.
And then you want to tell us some thoughts on the myocardial mechanism, the mechanism of myocarditis or something. You said you wanted to comment on that.
And then you want to tell us some thoughts on the myocardial mechanism, the mechanism of myocarditis or something. You said you wanted to comment on that.
Yeah, no, I think Claire summed it up beautifully, and I agree with her. I mean, the molecular mimicry doesn't just apply to the cardiac tissue. There are peptides in that spike protein for which there are human homologues and peptides. We can have the immune system attacking anywhere. There's even a paper out there that demonstrates that it can attack immune system cells. So this is really bad.
Yeah, no, I think Claire summed it up beautifully, and I agree with her. I mean, the molecular mimicry doesn't just apply to the cardiac tissue. There are peptides in that spike protein for which there are human homologues and peptides. We can have the immune system attacking anywhere. There's even a paper out there that demonstrates that it can attack immune system cells. So this is really bad.
I'm going to ask you to speculate even further. Is it possible that some of that was constructed in the lab, so to speak, to sort of have this as a bioweapon with a maximal downstream effect?
I'm going to ask you to speculate even further. Is it possible that some of that was constructed in the lab, so to speak, to sort of have this as a bioweapon with a maximal downstream effect?
Yes, and the reason I'm saying yes emphatically three times is because there's no way that the people who designed the spike protein, it was designed and it was codon optimized, didn't run that stuff through the various bioinformatics softwares to predict whether or not there were amyloidogenic peptides, which there are, whether there was a super antigen site, which it's been documented there is, whether or not there were...
Yes, and the reason I'm saying yes emphatically three times is because there's no way that the people who designed the spike protein, it was designed and it was codon optimized, didn't run that stuff through the various bioinformatics softwares to predict whether or not there were amyloidogenic peptides, which there are, whether there was a super antigen site, which it's been documented there is, whether or not there were...
many homologs to human proteins in there. There are.
many homologs to human proteins in there. There are.
Jessica, we know what you mean. You have to explain that to the public at large. All that needs to be deconstructed for people just simply, if you can. Homologs, codons, those are the words people don't know.
Jessica, we know what you mean. You have to explain that to the public at large. All that needs to be deconstructed for people just simply, if you can. Homologs, codons, those are the words people don't know.
All right. Forget about the codon optimization. You guys don't need to know about that for this. But basically, everybody knows that the sequence for the spike, it's a sequence of letters, which are... which are encoded by nucleotides. So a peptide is just a shorter sequence of like within that spike protein.
All right. Forget about the codon optimization. You guys don't need to know about that for this. But basically, everybody knows that the sequence for the spike, it's a sequence of letters, which are... which are encoded by nucleotides. So a peptide is just a shorter sequence of like within that spike protein.
So if you chop that up into little bits, let's just say, for example, some of those little bits, have exact, it's the same sequence in human protein, if you're catching my drift. So they're not similar, they're exact. There's like 100% sequence homology. So if you can imagine- Let's back away from that.
So if you chop that up into little bits, let's just say, for example, some of those little bits, have exact, it's the same sequence in human protein, if you're catching my drift. So they're not similar, they're exact. There's like 100% sequence homology. So if you can imagine- Let's back away from that.