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Emergence of the 2009 Swine-Origin Influenza Pandemic | Big Think

Emergence of the 2009 Swine-Origin Influenza Pandemic New videos DAILY: https://bigth.ink/youtube Join Big Think Edge for exclusive videos: https://bigth.ink/Edge ---------------------------------------------------------------------------------- TRANSCRIPT: Paul Hoffman: Our next presenter is Michael Worobey. He’s an ecologist and an evolutionary biologist at the University of Arizona. He is part of a team of researchers that have a very important paper published just last month in “Nature,” about the evolution of the swine flu virus. And what he basically found was that it has circulated undetected in swine for perhaps up to a decade. Michael Worobey. Michael Worobey: Thanks, Paul. I’m going to talk about the emergence of the swine flu epidemic. But I thought first I put it in the bigger context of the emergence of influenza virus in general. So here is the kind of tool that I used. It’s an evolutionary tree and all I want you to notice is for this H1 variant here, there is a nice human lineage, the Spanish flu is on that. There is a swine lineage, and there is a bird lineage. And these are the major players in the emergence of human influenza. And most of the genes, as Peter [Palese] said, of this new variant come from pigs. So here is a picture from the paper that we published. And just in case this doesn’t mean much to you, all these lines and dots, I want to take you through what we found here. So coming from British Columbia, I’d like to use the saguaro as the teaching tool. I actually work in Arizona now, so it makes some sense. With viruses, they evolve so quickly that you can actually see evolution happen, not just on the time frame of years, but in this instance, in the time frame of weeks. And this was a bit of surprise with just a few weeks of sequences that were produced as this pandemic was unfolding, we were able to calibrate the molecular clock. So let me just use this analogy, if you want to find out how old your saguaro was, you might not be able to do it just by counting tree rings or something. But if you have a photo from 1999 of this cactus in your yard, and you were able to compare it to how much it has grown in the ten years since that time. You start to have a grasp on how quickly this thing grows. And you can make some estimates from the different branches of the percent of that centimeter per year of growth rate, and that can allow you to work back to when the thing originated. So we do the same thing with viruses. If you have a small observation window like this, you can often make really robust differences about things much deeper in time. Okay now as an analogy, I just want to show you an evolution tree that you are more probably familiar with here. So we do the same sort of things for primates, and if you did an evolutionary tree of primates, you will have a human branch on the tree, or more closely related species, or chimpanzees and bonobos, and then you have the more distantly related species here. And you can place the date on the most recent common ancestors of all humans and that might be around a hundred years ago. You could also ask, what’s the most recent common ancestor of humans? And whatever is most closely related to them, and that’s all the way back here, around 5 million years ago. So for this swine origin flu pandemic we did exactly the same thing. So two questions: What is the timing on that ancestor of the virus once it jumped into humans? So when that jumped take place and if you go gene by gene and asked what’s the most closely related species for each gene? It’s actually a pig virus. So we also ask for each gene, when that broke off from the rest of the sample of pig viruses. Okay, so now we’re back to this, and what you see for each gene is the human sequences go less quite recently in time, but nowhere near the March and April [2009] timeline that this thing first emerged, to our knowledge. And for each of the genes, the most closely related sequences are from pigs. Now Peter [Palese] mentioned that some of them ultimately are of avian origin, and some are human origin. What you see when you go gene by gene is that, even for the ones that are ultimately an avian or human origin, they traveled through pigs. And in each case, we find that there’s been a timeline of about 10 years where this virus has been in pigs but has gone totally unnoticed--which says something about our surveillance. And for the human outbreak, what you see is a timeline of about somewhere around October to December of last year [2008] that the virus was probably in humans. So it took several months to actually spread to the point where the tip of the iceberg became apparent to us. Read the full transcript at https://bigthink.com/videos/emergence...