Do you think these two possibilities are equally likely?
Do you think one is more likely than the other?
Which?
You say that you find the lab possibility not very likely, so do you find the zoonotic scenario any more likely? If so, then you and I are in agreement, of a kind. You never said that above, and you definitely argued in a way that implied something else. Especially given the CGG codons.
Probabilistic thinking is the nature of the discussion in the absence of conclusive evidence. Probabilistic thinking. Heuristics. That's what I've been discussing this entire time, that's what I was talking about in my original post, and it's what your reply comments were, therefore, replying to.
I never make any claims saying either is the only possible scenario or an impossible one.
I also was not "dancing around the concrete arguments on the topic." I was directly answering arguments that had been put forth to me by random people on the internet. That's it. That's the point of the post. To answer those arguments.
I get that you've never seen it claimed that engineering made all 1200 mutations, but plenty of people claim it. You can look on my original reddit post and see people in the comments claiming it's possible because "China is so far ahead of us, they could have generated the primers 20 years ago to do something like that."
That's why it's not a strawman, I was directly answering arguments that had been made to me by people on the internet. Just because you think they are ludicrous arguments does not mean that someone has not made them. The internet is larger and more diverse in its idiocy than you have conceived of in your dreams, Horatio. etc. etc.
>2) That furin site RNA contains a non-canonical amino acid codon. To be fair, you didn't dispute this.
Hi, I have disputed the claim you've made since that the virus contains two such codons in a row. That is patently not the case in the earliest examples of the virus known. And wow, I just checked, and those three sequences from the earliest part of the pandemic I linked, they don't contain the cgg in the furin site. Literally look yourself. The earliest sequences out of China, Korea, and Iran do not have the cgg where you're talking about. It isn't there. Not that I saw, lol. Show me where it is if you find it. I just used BLOSUM similarity alignment and looked where the cleavage is supposed to be. And I don't see CGG there.
I actually address the restriction site directly in the original discussion. I don't recall you mentioning it before now. if you did, my apologies I missed it. See my comments on that copy/pasted here:
"For sticky end ligation, for example, you can examine the relative length of homologous regions around restriction enzyme cutting motifs. And sort of detect it like a photoshopped gel almost. But in sequence form. Real mutations shouldn't occur predominately around restriction enzyme motifs. But engineered mutations would. You'd have to use evolutionary comparison of similar viral species to see if there are any mutations that appear too improbable to have happened by polymerase error alone.
Is it still possible to slip one by such a method? yes, of course. Especially small insertions or deletions would be easy to hide...
[But] it literally wouldn't make sense to do it. We have established backbones that would make more sense and be easier to use. The only reason would be to "hide your work." And that's like years and years worth of genetic manipulation, several post-docs worth of work, easy. All to "hide your work." When you could just use SARS-CoV-1 and be A) more deadly, B) more "natural", and C) easier to use."
It's just really funny if we do agree about both of these being possible, but one being more likely than the other. If we both agree that the zoonotic is probably more likely, what are we arguing about? I don't disagree that it is /technically/ possible, but I also find it more likely to have occurred in nature. Restriction sites can also occur in nature, btw. This is a case of the "lottery" fallacy. There are so many goddamn restriction sites throughout any viral genome, why is this surprising?