Please double-click on the English subtitles below to play the video.
00:26
I'm supposed to scare you, because it's about fear, right?
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And you should be really afraid,
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but not for the reasons why you think you should be.
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You should be really afraid that --
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if we stick up the first slide on this thing -- there we go -- that you're missing out.
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Because if you spend this week thinking about Iraq and
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thinking about Bush and thinking about the stock market,
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you're going to miss one of the greatest adventures that we've ever been on.
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And this is what this adventure's really about.
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This is crystallized DNA.
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Every life form on this planet -- every insect, every bacteria, every plant,
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every animal, every human, every politician -- (Laughter)
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is coded in that stuff.
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And if you want to take a single crystal of DNA, it looks like that.
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And we're just beginning to understand this stuff.
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And this is the single most exciting adventure that we have ever been on.
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It's the single greatest mapping project we've ever been on.
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If you think that the mapping of America's made a difference,
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or landing on the moon, or this other stuff,
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it's the map of ourselves and the map of every plant
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and every insect and every bacteria that really makes a difference.
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And it's beginning to tell us a lot about evolution.
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(Laughter)
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It turns out that what this stuff is --
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and Richard Dawkins has written about this --
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is, this is really a river out of Eden.
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So, the 3.2 billion base pairs inside each of your cells
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is really a history of where you've been for the past billion years.
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And we could start dating things,
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and we could start changing medicine and archeology.
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It turns out that if you take the human species about 700 years ago,
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white Europeans diverged from black Africans in a very significant way.
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White Europeans were subject to the plague.
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And when they were subject to the plague, most people didn't survive,
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but those who survived had a mutation on the CCR5 receptor.
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And that mutation was passed on to their kids
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because they're the ones that survived,
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so there was a great deal of population pressure.
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In Africa, because you didn't have these cities,
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you didn't have that CCR5 population pressure mutation.
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We can date it to 700 years ago.
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That is one of the reasons why AIDS is raging across Africa as fast as it is,
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and not as fast across Europe.
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And we're beginning to find these little things for malaria,
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for sickle cell, for cancers.
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And in the measure that we map ourselves,
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this is the single greatest adventure that we'll ever be on.
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And this Friday, I want you to pull out a really good bottle of wine,
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and I want you to toast these two people.
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Because this Friday, 50 years ago, Watson and Crick found the structure of DNA,
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and that is almost as important a date
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as the 12th of February when we first mapped ourselves,
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but anyway, we'll get to that.
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I thought we'd talk about the new zoo.
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So, all you guys have heard about DNA, all the stuff that DNA does,
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but some of the stuff we're discovering is kind of nifty
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because this turns out to be the single most abundant species on the planet.
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If you think you're successful or cockroaches are successful,
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it turns out that there's ten trillion trillion Pleurococcus sitting out there.
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And we didn't know that Pleurococcus was out there,
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which is part of the reason
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why this whole species-mapping project is so important.
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Because we're just beginning to learn
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where we came from and what we are.
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And we're finding amoebas like this. This is the amoeba dubia.
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And the amoeba dubia doesn't look like much,
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except that each of you has about 3.2 billion letters,
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which is what makes you you,
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as far as gene code inside each of your cells,
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and this little amoeba which, you know,
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sits in water in hundreds and millions and billions,
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turns out to have 620 billion base pairs of gene code inside.
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So, this little thingamajig has a genome
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that's 200 times the size of yours.
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And if you're thinking of efficient information storage mechanisms,
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it may not turn out to be chips.
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It may turn out to be something that looks a little like that amoeba.
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And, again, we're learning from life and how life works.
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This funky little thing: people didn't used to think
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that it was worth taking samples out of nuclear reactors
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because it was dangerous and, of course, nothing lived there.
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And then finally somebody picked up a microscope
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and looked at the water that was sitting next to the cores.
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And sitting next to that water in the cores
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was this little Deinococcus radiodurans, doing a backstroke,
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having its chromosomes blown apart every day,
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six, seven times, restitching them,
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living in about 200 times the radiation that would kill you.
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And by now you should be getting a hint as to how diverse
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and how important and how interesting this journey into life is,
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and how many different life forms there are,
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and how there can be different life forms living in
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very different places, maybe even outside of this planet.
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Because if you can live in radiation that looks like this,
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that brings up a whole series of interesting questions.
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This little thingamajig: we didn't know this thingamajig existed.
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We should have known that this existed
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because this is the only bacteria that you can see to the naked eye.
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So, this thing is 0.75 millimeters.
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It lives in a deep trench off the coast of Namibia.
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And what you're looking at with this namibiensis
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is the biggest bacteria we've ever seen.
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So, it's about the size of a little period on a sentence.
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Again, we didn't know this thing was there three years ago.
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We're just beginning this journey of life in the new zoo.
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This is a really odd one. This is Ferroplasma.
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The reason why Ferroplasma is interesting is because it eats iron,
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lives inside the equivalent of battery acid,
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and excretes sulfuric acid.
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So, when you think of odd life forms,
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when you think of what it takes to live,
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it turns out this is a very efficient life form,
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and they call it an archaea. Archaea means "the ancient ones."
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And the reason why they're ancient is because this thing came up
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when this planet was covered
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by things like sulfuric acid in batteries,
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and it was eating iron when the earth was part of a melted core.
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So, it's not just dogs and cats and whales and dolphins
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that you should be aware of and interested in on this little journey.
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Your fear should be that you are not,
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that you're paying attention to stuff which is temporal.
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I mean, George Bush -- he's going to be gone, alright? Life isn't.
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Whether the humans survive or don't survive,
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these things are going to be living on this planet or other planets.
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And it's just beginning to understand this code of DNA
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that's really the most exciting intellectual adventure
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that we've ever been on.
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And you can do strange things with this stuff. This is a baby gaur.
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Conservation group gets together,
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tries to figure out how to breed an animal that's almost extinct.
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They can't do it naturally, so what they do with this thing is
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they take a spoon, take some cells out of an adult gaur's mouth, code,
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take the cells from that and insert it into a fertilized cow's egg,
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reprogram cow's egg -- different gene code.
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When you do that, the cow gives birth to a gaur.
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We are now experimenting with bongos, pandas, elands, Sumatran tigers,
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and the Australians -- bless their hearts --
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are playing with these things.
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Now, the last of these things died in September 1936.
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These are Tasmanian tigers. The last known one died at the Hobart Zoo.
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But it turns out that as we learn more about gene code
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and how to reprogram species,
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we may be able to close the gene gaps in deteriorate DNA.
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And when we learn how to close the gene gaps,
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then we can put a full string of DNA together.
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And if we do that, and insert this into a fertilized wolf's egg,
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we may give birth to an animal
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that hasn't walked the earth since 1936.
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And then you can start going back further,
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and you can start thinking about dodos,
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and you can think about other species.
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And in other places, like Maryland, they're trying to figure out
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what the primordial ancestor is.
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Because each of us contains our entire gene code
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of where we've been for the past billion years,
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because we've evolved from that stuff,
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you can take that tree of life and collapse it back,
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and in the measure that you learn to reprogram,
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maybe we'll give birth to something
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that is very close to the first primordial ooze.
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And it's all coming out of things that look like this.
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These are companies that didn't exist five years ago.
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Huge gene sequencing facilities the size of football fields.
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Some are public. Some are private.
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It takes about 5 billion dollars to sequence a human being the first time.
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Takes about 3 million dollars the second time.
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We will have a 1,000-dollar genome within the next five to eight years.
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That means each of you will contain on a CD your entire gene code.
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And it will be really boring. It will read like this.
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(Laughter)
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The really neat thing about this stuff is that's life.
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And Laurie's going to talk about this one a little bit.
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Because if you happen to find this one inside your body,
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you're in big trouble, because that's the source code for Ebola.
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That's one of the deadliest diseases known to humans.
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But plants work the same way and insects work the same way,
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and this apple works the same way.
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This apple is the same thing as this floppy disk.
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Because this thing codes ones and zeros,
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and this thing codes A, T, C, Gs, and it sits up there,
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absorbing energy on a tree, and one fine day
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it has enough energy to say, execute, and it goes [thump]. Right?
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(Laughter)
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And when it does that, pushes a .EXE, what it does is,
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it executes the first line of code, which reads just like that,
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AATCAGGGACCC, and that means: make a root.
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Next line of code: make a stem.
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Next line of code, TACGGGG: make a flower that's white,
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that blooms in the spring, that smells like this.
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In the measure that you have the code
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and the measure that you read it --
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and, by the way, the first plant was read two years ago;
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the first human was read two years ago;
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the first insect was read two years ago.
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The first thing that we ever read was in 1995:
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a little bacteria called Haemophilus influenzae.
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In the measure that you have the source code, as all of you know,
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you can change the source code, and you can reprogram life forms
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so that this little thingy becomes a vaccine,
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or this little thingy starts producing biomaterials,
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which is why DuPont is now growing a form of polyester
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that feels like silk in corn.
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This changes all rules. This is life, but we're reprogramming it.
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This is what you look like. This is one of your chromosomes.
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And what you can do now is,
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you can outlay exactly what your chromosome is,
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and what the gene code on that chromosome is right here,
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and what those genes code for, and what animals they code against,
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and then you can tie it to the literature.
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And in the measure that you can do that, you can go home today,
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and get on the Internet, and access
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the world's biggest public library, which is a library of life.
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And you can do some pretty strange things
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because in the same way as you can reprogram this apple,
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if you go to Cliff Tabin's lab at the Harvard Medical School,
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he's reprogramming chicken embryos to grow more wings.
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Why would Cliff be doing that? He doesn't have a restaurant.
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(Laughter)
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The reason why he's reprogramming that animal to have more wings
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is because when you used to play with lizards as a little child,
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and you picked up the lizard, sometimes the tail fell off, but it regrew.
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Not so in human beings:
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you cut off an arm, you cut off a leg -- it doesn't regrow.
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But because each of your cells contains your entire gene code,
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each cell can be reprogrammed, if we don't stop stem cell research
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and if we don't stop genomic research,
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to express different body functions.
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And in the measure that we learn how chickens grow wings,
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and what the program is for those cells to differentiate,
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one of the things we're going to be able to do
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is to stop undifferentiated cells, which you know as cancer,
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and one of the things we're going to learn how to do
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is how to reprogram cells like stem cells
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in such a way that they express bone, stomach, skin, pancreas.
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And you are likely to be wandering around -- and your children --
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on regrown body parts in a reasonable period of time,
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in some places in the world where they don't stop the research.
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How's this stuff work? If each of you differs
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from the person next to you by one in a thousand, but only three percent codes,
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which means it's only one in a thousand times three percent,
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very small differences in expression and punctuation
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can make a significant difference. Take a simple declarative sentence.
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(Laughter)
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Right?
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That's perfectly clear. So, men read that sentence,
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and they look at that sentence, and they read this.
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Okay?
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Now, women look at that sentence and they say, uh-uh, wrong.
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This is the way it should be seen.
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(Laughter)
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That's what your genes are doing.
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That's why you differ from this person over here by one in a thousand.
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Right? But, you know, he's reasonably good looking, but...
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I won't go there.
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You can do this stuff even without changing the punctuation.
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You can look at this, right?
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And they look at the world a little differently.
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They look at the same world and they say...
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(Laughter)
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That's how the same gene code -- that's why you have 30,000 genes,
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mice have 30,000 genes, husbands have 30,000 genes.
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Mice and men are the same. Wives know that, but anyway.
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You can make very small changes in gene code
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and get really different outcomes,
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even with the same string of letters.
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That's what your genes are doing every day.
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That's why sometimes a person's genes
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don't have to change a lot to get cancer.
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These little chippies, these things are the size of a credit card.
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They will test any one of you for 60,000 genetic conditions.
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That brings up questions of privacy and insurability
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and all kinds of stuff, but it also allows us to start going after diseases,
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because if you run a person who has leukemia through something like this,
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it turns out that three diseases with
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completely similar clinical syndromes
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are completely different diseases.
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Because in ALL leukemia, that set of genes over there over-expresses.
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In MLL, it's the middle set of genes,
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and in AML, it's the bottom set of genes.
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And if one of those particular things is expressing in your body,
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then you take Gleevec and you're cured.
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If it is not expressing in your body,
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if you don't have one of those types --
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a particular one of those types -- don't take Gleevec.
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It won't do anything for you.
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Same thing with Receptin if you've got breast cancer.
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Don't have an HER-2 receptor? Don't take Receptin.
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Changes the nature of medicine. Changes the predictions of medicine.
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Changes the way medicine works.
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The greatest repository of knowledge when most of us went to college
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was this thing, and it turns out that
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this is not so important any more.
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The U.S. Library of Congress, in terms of its printed volume of data,
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contains less data than is coming out of a good genomics company
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every month on a compound basis.
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Let me say that again: A single genomics company
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generates more data in a month, on a compound basis,
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than is in the printed collections of the Library of Congress.
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This is what's been powering the U.S. economy. It's Moore's Law.
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So, all of you know that the price of computers halves every 18 months
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and the power doubles, right?
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Except that when you lay that side by side with the speed
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with which gene data's being deposited in GenBank,
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Moore's Law is right here: it's the blue line.
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This is on a log scale, and that's what superexponential growth means.
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This is going to push computers to have to grow faster
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than they've been growing, because so far,
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there haven't been applications that have been required
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that need to go faster than Moore's Law. This stuff does.
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And here's an interesting map.
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This is a map which was finished at the Harvard Business School.
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One of the really interesting questions is, if all this data's free,
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who's using it? This is the greatest public library in the world.
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Well, it turns out that there's about 27 trillion bits
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moving inside from the United States to the United States;
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about 4.6 trillion is going over to those European countries;
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about 5.5's going to Japan; there's almost no communication
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between Japan, and nobody else is literate in this stuff.
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It's free. No one's reading it. They're focusing on the war;
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they're focusing on Bush; they're not interested in life.
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So, this is what a new map of the world looks like.
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That is the genomically literate world. And that is a problem.
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In fact, it's not a genomically literate world.
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You can break this out by states.
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And you can watch states rise and fall depending on
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their ability to speak a language of life,
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and you can watch New York fall off a cliff,
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and you can watch New Jersey fall off a cliff,
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and you can watch the rise of the new empires of intelligence.
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And you can break it out by counties, because it's specific counties.
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And if you want to get more specific,
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it's actually specific zip codes.
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(Laughter)
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So, you want to know where life is happening?
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Well, in Southern California it's happening in 92121. And that's it.
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And that's the triangle between Salk, Scripps, UCSD,
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and it's called Torrey Pines Road.
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That means you don't need to be a big nation to be successful;
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it means you don't need a lot of people to be successful;
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and it means you can move most of the wealth of a country
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in about three or four carefully picked 747s.
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Same thing in Massachusetts. Looks more spread out but --
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oh, by the way, the ones that are the same color are contiguous.
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What's the net effect of this?
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In an agricultural society, the difference between
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the richest and the poorest,
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the most productive and the least productive, was five to one. Why?
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Because in agriculture, if you had 10 kids
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and you grow up a little bit earlier and you work a little bit harder,
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you could produce about five times more wealth, on average,
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than your neighbor.
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In a knowledge society, that number is now 427 to 1.
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It really matters if you're literate, not just in reading and writing
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in English and French and German,
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but in Microsoft and Linux and Apple.
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And very soon it's going to matter if you're literate in life code.
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So, if there is something you should fear,
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it's that you're not keeping your eye on the ball.
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Because it really matters who speaks life.
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That's why nations rise and fall.
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And it turns out that if you went back to the 1870s,
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the most productive nation on earth was Australia, per person.
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And New Zealand was way up there. And then the U.S. came in about 1950,
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and then Switzerland about 1973, and then the U.S. got back on top --
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beat up their chocolates and cuckoo clocks.
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And today, of course, you all know that the most productive nation
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on earth is Luxembourg, producing about one third more wealth
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per person per year than America.
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Tiny landlocked state. No oil. No diamonds. No natural resources.
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Just smart people moving bits. Different rules.
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Here's differential productivity rates.
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Here's how many people it takes to produce a single U.S. patent.
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So, about 3,000 Americans, 6,000 Koreans, 14,000 Brits,
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790,000 Argentines. You want to know why Argentina's crashing?
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It's got nothing to do with inflation.
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It's got nothing to do with privatization.
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You can take a Harvard-educated Ivy League economist,
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stick him in charge of Argentina. He still crashes the country
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because he doesn't understand how the rules have changed.
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Oh, yeah, and it takes about 5.6 million Indians.
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Well, watch what happens to India.
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India and China used to be 40 percent of the global economy
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just at the Industrial Revolution, and they are now about 4.8 percent.
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Two billion people. One third of the global population producing 5 percent of the wealth
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because they didn't get this change,
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because they kept treating their people like serfs
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instead of like shareholders of a common project.
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They didn't keep the people who were educated.
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They didn't foment the businesses. They didn't do the IPOs.
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Silicon Valley did. And that's why they say
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that Silicon Valley has been powered by ICs.
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Not integrated circuits: Indians and Chinese.
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(Laughter)
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Here's what's happening in the world.
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It turns out that if you'd gone to the U.N. in 1950,
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when it was founded, there were 50 countries in this world.
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It turns out there's now about 192.
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Country after country is splitting, seceding, succeeding, failing --
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and it's all getting very fragmented. And this has not stopped.
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In the 1990s, these are sovereign states
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that did not exist before 1990.
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And this doesn't include fusions or name changes or changes in flags.
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We're generating about 3.12 states per year.
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People are taking control of their own states,
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sometimes for the better and sometimes for the worse.
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And the really interesting thing is,
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you and your kids are empowered to build great empires,
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and you don't need a lot to do it.
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(Music)
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And, given that the music is over, I was going to talk
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about how you can use this to generate a lot of wealth,
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and how code works.
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Moderator: Two minutes.
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(Laughter)
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Juan Enriquez: No, I'm going to stop there and we'll do it next year
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because I don't want to take any of Laurie's time.
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But thank you very much.
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New videos
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