Bonnie Bassler: The secret, social lives of bacteria

296,679 views ・ 2009-04-08

TED


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Bacteria are the oldest living organisms on the earth.
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They've been here for billions of years,
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and what they are are single-celled microscopic organisms.
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So they're one cell
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and they have this special property that they only have one piece of DNA.
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So they have very few genes and genetic information
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to encode all of the traits that they carry out.
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And the way bacteria make a living is that they consume nutrients
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from the environment,
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they grow to twice their size,
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they cut themselves down in the middle,
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and one cell becomes two, and so on and so on.
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They just grow and divide and grow and divide -- so a kind of boring life,
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except that what I would argue is that you have an amazing interaction
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with these critters.
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I know you guys think of yourself as humans,
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and this is sort of how I think of you.
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This man is supposed to represent a generic human being,
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and all of the circles in that man are all the cells that make up your body.
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There's about a trillion human cells that make each one of us who we are
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and able to do all the things that we do.
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But you have 10 trillion bacterial cells in you or on you
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at any moment in your life.
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So, 10 times more bacterial cells than human cells on a human being.
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And, of course, it's the DNA that counts,
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so here's all the A, T, Gs and Cs that make up your genetic code
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and give you all your charming characteristics.
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You have about 30,000 genes.
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Well, it turns out you have 100 times more bacterial genes
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playing a role in you or on you all of your life.
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So at the best, you're 10 percent human; more likely, about one percent human,
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depending on which of these metrics you like.
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I know you think of yourself as human beings,
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but I think of you as 90 or 99 percent bacterial.
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(Laughter)
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And these bacteria are not passive riders.
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These are incredibly important; they keep us alive.
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They cover us in an invisible body armor
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that keeps environmental insults out so that we stay healthy.
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They digest our food, they make our vitamins,
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they actually educate your immune system to keep bad microbes out.
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So they do all these amazing things
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that help us and are vital for keeping us alive,
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and they never get any press for that.
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But they get a lot of press because they do a lot of terrible things as well.
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So there's all kinds of bacteria on the earth
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that have no business being in you or on you at any time,
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and if they are, they make you incredibly sick.
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And so the question for my lab
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is whether you want to think about all the good things that bacteria do
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or all the bad things that bacteria do.
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The question we had is: How could they do anything at all?
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I mean, they're incredibly small.
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You have to have a microscope to see one.
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They live this sort of boring life where they grow and divide,
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and they've always been considered to be these asocial, reclusive organisms.
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And so it seemed to us that they're just too small
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to have an impact on the environment
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if they simply act as individuals.
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So we wanted to think if there couldn't be a different way that bacteria live.
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And the clue to this came from another marine bacterium,
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and it's a bacterium called "Vibrio fischeri."
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What you're looking at on this slide is just a person from my lab
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holding a flask of a liquid culture of a bacterium,
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a harmless, beautiful bacterium that comes from the ocean,
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named Vibrio fischeri.
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And this bacterium has the special property that it makes light,
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so it makes bioluminescence,
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like fireflies make light.
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We're not doing anything to the cells here,
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we just took the picture by turning the lights off in the room,
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and this is what we see.
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And what's actually interesting to us was not that the bacteria made light
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but when the bacteria made light.
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What we noticed is when the bacteria were alone,
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so when they were in dilute suspension,
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they made no light.
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But when they grew to a certain cell number,
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all the bacteria turned on light simultaneously.
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So the question that we had is:
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How can bacteria, these primitive organisms,
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tell the difference from times when they're alone
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and times when they're in a community,
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and then all do something together?
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And what we figured out is that the way they do that is they talk to each other,
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and they talk with a chemical language.
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So this is now supposed to be my bacterial cell.
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When it's alone, it doesn't make any light.
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But what it does do is to make and secrete small molecules
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that you can think of like hormones,
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and these are the red triangles.
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And when the bacteria are alone, the molecules just float away,
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and so, no light.
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But when the bacteria grow and double
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and they're all participating in making these molecules,
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the molecule, the extracellular amount of that molecule,
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increases in proportion to cell number.
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And when the molecule hits a certain amount
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that tells the bacteria how many neighbors there are,
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they recognize that molecule
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and all of the bacteria turn on light in synchrony.
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And so that's how bioluminescence works --
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they're talking with these chemical words.
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The reason Vibrio fischeri is doing that comes from the biology --
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again, another plug for the animals in the ocean.
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Vibrio fischeri lives in this squid.
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What you're looking at is the Hawaiian bobtail squid.
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It's been turned on its back,
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and what I hope you can see are these two glowing lobes.
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These house the Vibrio fischeri cells.
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They live in there, at high cell number.
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That molecule is there, and they're making light.
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And the reason the squid is willing to put up with these shenanigans
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is because it wants that light.
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The way that this symbiosis works
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is that this little squid lives just off the coast of Hawaii,
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just in sort of shallow knee-deep water.
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And the squid is nocturnal,
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so during the day, it buries itself in the sand and sleeps.
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But then at night, it has to come out to hunt.
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So on bright nights
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when there's lots of starlight or moonlight,
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that light can penetrate the depth of the water the squid lives in,
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since it's just in those couple feet of water.
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What the squid has developed is a shutter that can open and close
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over the specialized light organ housing the bacteria.
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And then it has detectors on its back
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so it can sense how much starlight or moonlight is hitting its back.
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And it opens and closes the shutter
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so the amount of light coming out of the bottom,
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which is made by the bacterium,
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exactly matches how much light hits the squid's back,
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so the squid doesn't make a shadow.
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So it actually uses the light from the bacteria
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to counter-illuminate itself in an antipredation device,
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so predators can't see its shadow,
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calculate its trajectory and eat it.
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So this is like the stealth bomber of the ocean.
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(Laughter)
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But then if you think about it, this squid has this terrible problem,
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because it's got this dying, thick culture of bacteria,
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and it can't sustain that.
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And so what happens is, every morning when the sun comes up,
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the squid goes back to sleep, it buries itself in the sand,
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and it's got a pump that's attached to its circadian rhythm.
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And when the sun comes up, it pumps out, like, 95 percent of the bacteria.
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So now the bacteria are dilute,
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that little hormone molecule is gone, so they're not making light.
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But, of course, the squid doesn't care, it's asleep in the sand.
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And as the day goes by, the bacteria double,
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they release the molecule, and then light comes on at night,
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exactly when the squid wants it.
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So first, we figured out how this bacterium does this,
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but then we brought the tools of molecular biology to this
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to figure out, really, what's the mechanism.
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And what we found -- so this is now supposed to be my bacterial cell --
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is that Vibrio fischeri has a protein.
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That's the red box --
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it's an enzyme that makes that little hormone molecule,
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the red triangle.
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And then as the cells grow,
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they're all releasing that molecule into the environment,
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so there's lots of molecule there.
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And the bacteria also have a receptor on their cell surface
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that fits like a lock and key with that molecule.
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These are just like the receptors on the surfaces of your cells.
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So when the molecule increases to a certain amount,
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which says something about the number of cells,
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it locks down into that receptor
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and information comes into the cells
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that tells the cells to turn on this collective behavior of making light.
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Why this is interesting is because in the past decade,
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we have found that this is not just some anomaly
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of this ridiculous, glow-in-the-dark bacterium that lives in the ocean --
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all bacteria have systems like this.
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So now what we understand is that all bacteria can talk to each other.
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They make chemical words, they recognize those words,
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and they turn on group behaviors
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that are only successful when all of the cells participate in unison.
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So now we have a fancy name for this: we call it "quorum sensing."
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They vote with these chemical votes,
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the vote gets counted, and then everybody responds to the vote.
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What's important for today's talk is we know there are hundreds of behaviors
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that bacteria carry out in these collective fashions.
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But the one that's probably the most important to you is virulence.
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It's not like a couple bacteria get in you and start secreting some toxins --
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you're enormous; that would have no effect on you, you're huge.
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But what they do, we now understand,
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is they get in you, they wait, they start growing,
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they count themselves with these little molecules,
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and they recognize when they have the right cell number
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that if all of the bacteria launch their virulence attack together,
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they're going to be successful at overcoming an enormous host.
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So bacteria always control pathogenicity with quorum sensing.
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So that's how it works.
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We also then went to look at what are these molecules.
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These were the red triangles on my slides before.
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This is the Vibrio fischeri molecule.
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This is the word that it talks with.
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And then we started to look at other bacteria,
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and these are just a smattering of the molecules that we've discovered.
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What I hope you can see is that the molecules are related.
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The left-hand part of the molecule is identical
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in every single species of bacteria.
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But the right-hand part of the molecule is a little bit different
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in every single species.
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What that does is to confer exquisite species specificities to these languages.
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So each molecule fits into its partner receptor
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and no other.
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So these are private, secret conversations.
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These conversations are for intraspecies communication.
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Each bacteria uses a particular molecule that's its language
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that allows it to count its own siblings.
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Once we got that far,
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we thought we were starting to understand that bacteria have these social behaviors.
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But what we were really thinking about is that most of the time,
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bacteria don't live by themselves, they live in incredible mixtures,
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with hundreds or thousands of other species of bacteria.
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And that's depicted on this slide.
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This is your skin.
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So this is just a picture -- a micrograph of your skin.
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Anywhere on your body, it looks pretty much like this.
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What I hope you can see
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is that there's all kinds of bacteria there.
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And so we started to think, if this really is about communication in bacteria,
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and it's about counting your neighbors,
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it's not enough to be able to only talk within your species.
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There has to be a way to take a census
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of the rest of the bacteria in the population.
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So we went back to molecular biology
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and started studying different bacteria.
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And what we've found now is that, in fact, bacteria are multilingual.
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They all have a species-specific system,
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they have a molecule that says "me."
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But then running in parallel to that is a second system
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that we've discovered, that's generic.
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So they have a second enzyme that makes a second signal,
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and it has its own receptor,
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and this molecule is the trade language of bacteria.
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It's used by all different bacteria,
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and it's the language of interspecies communication.
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What happens is that bacteria are able to count
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how many of "me" and how many of "you."
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And they take that information inside,
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and they decide what tasks to carry out
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depending on who's in the minority and who's in the majority
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of any given population.
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Then, again, we turned to chemistry,
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and we figured out what this generic molecule is --
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that was the pink ovals on my last slide, this is it.
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It's a very small, five-carbon molecule.
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And what the important thing is that we learned
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is that every bacterium has exactly the same enzyme
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and makes exactly the same molecule.
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So they're all using this molecule for interspecies communication.
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This is the bacterial Esperanto.
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(Laughter)
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So once we got that far,
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we started to learn that bacteria can talk to each other
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with this chemical language.
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But we started to think
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that maybe there is something practical that we can do here as well.
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I've told you that bacteria have all these social behaviors,
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that they communicate with these molecules.
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Of course, I've also told you that one of the important things they do
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is to initiate pathogenicity using quorum sensing.
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So we thought:
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What if we made these bacteria so they can't talk or they can't hear?
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Couldn't these be new kinds of antibiotics?
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And of course, you've just heard and you already know
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that we're running out of antibiotics.
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Bacteria are incredibly multi-drug-resistant right now,
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and that's because all of the antibiotics that we use kill bacteria.
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They either pop the bacterial membrane,
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they make the bacterium so it can't replicate its DNA.
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We kill bacteria with traditional antibiotics,
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and that selects for resistant mutants.
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And so now, of course, we have this global problem
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in infectious diseases.
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So we thought, what if we could sort of do behavior modifications,
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just make these bacteria so they can't talk, they can't count,
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and they don't know to launch virulence?
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So that's exactly what we've done,
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and we've sort of taken two strategies.
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The first one is, we've targeted the intraspecies communication system.
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So we made molecules that look kind of like the real molecules, which you saw,
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but they're a little bit different.
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And so they lock into those receptors,
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and they jam recognition of the real thing.
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So by targeting the red system,
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what we are able to do is make species-specific, or disease-specific,
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anti-quorum-sensing molecules.
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We've also done the same thing with the pink system.
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We've taken that universal molecule and turned it around a little bit
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so that we've made antagonists of the interspecies communication system.
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The hope is that these will be used as broad-spectrum antibiotics
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that work against all bacteria.
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And so to finish, I'll show you the strategy.
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In this one, I'm just using the interspecies molecule,
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but the logic is exactly the same.
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So what you know is that when that bacterium gets into the animal --
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in this case, a mouse --
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it doesn't initiate virulence right away.
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It gets in, it starts growing,
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it starts secreting its quorum-sensing molecules.
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It recognizes when it has enough bacteria
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that now they're going to launch their attack,
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and the animal dies.
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And so what we've been able to do is to give these virulent infections,
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but we give them in conjunction with our anti-quorum-sensing molecules.
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So these are molecules that look kind of like the real thing,
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but they're a little different, which I've depicted on this slide.
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What we now know is that if we treat the animal with a pathogenic bacterium --
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a multi-drug-resistant pathogenic bacterium --
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in the same time we give our anti-quorum-sensing molecule,
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in fact, the animal lives.
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And so we think that this is the next generation of antibiotics,
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and it's going to get us around, at least initially,
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this big problem of resistance.
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What I hope you think is that bacteria can talk to each other,
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they use chemicals as their words,
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they have an incredibly complicated chemical lexicon
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that we're just now starting to learn about.
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Of course, what that allows bacteria to do is to be multicellular.
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So in the spirit of TED,
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they're doing things together because it makes a difference.
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What happens is that bacteria have these collective behaviors,
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and they can carry out tasks
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that they could never accomplish if they simply acted as individuals.
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What I would hope that I could further argue to you
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is that this is the invention of multicellularity.
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Bacteria have been on the earth for billions of years;
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humans, couple hundred thousand.
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So we think bacteria made the rules for how multicellular organization works.
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And we think by studying bacteria,
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we're going to be able to have insight about multicellularity in the human body.
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So we know that the principles and the rules,
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if we can figure them out in these sort of primitive organisms,
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the hope is that they will be applied
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to other human diseases and human behaviors as well.
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I hope that what you've learned
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is that bacteria can distinguish self from other.
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So by using these two molecules,
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they can say "me" and they can say "you."
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And again, of course, that's what we do,
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both in a molecular way, and also in an outward way,
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but I think about the molecular stuff.
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This is exactly what happens in your body.
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It's not like your heart cells and kidney cells get all mixed up every day,
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16:09
and that's because there's all of this chemistry going on,
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16:11
these molecules that say who each of these groups of cells is
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and what their tasks should be.
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So again, we think bacteria invented that,
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and you've just evolved a few more bells and whistles,
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but all of the ideas are in these simple systems that we can study.
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And the final thing is, just to reiterate that there's this practical part,
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and so we've made these anti-quorum-sensing molecules
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that are being developed as new kinds of therapeutics.
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But then, to finish with a plug for all the good and miraculous bacteria
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that live on the earth,
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we've also made pro-quorum-sensing molecules.
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So we've targeted those systems to make the molecules work better.
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So remember, you have these 10 times or more bacterial cells
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in you or on you, keeping you healthy.
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What we're also trying to do is to beef up the conversation
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of the bacteria that live as mutualists with you,
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in the hopes of making you more healthy,
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making those conversations better,
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so bacteria can do things that we want them to do
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better than they would be on their own.
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Finally, I wanted to show you --
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this is my gang at Princeton, New Jersey.
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Everything I told you about was discovered by someone in that picture.
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And I hope when you learn things, like about how the natural world works --
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I just want to say that whenever you read something in the newspaper
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or you hear some talk about something ridiculous in the natural world,
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it was done by a child.
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So science is done by that demographic.
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All of those people are between 20 and 30 years old,
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17:34
and they are the engine that drives scientific discovery in this country.
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And it's a really lucky demographic to work with.
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(Applause)
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I keep getting older and older, and they're always the same age.
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And it's just a crazy, delightful job.
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And I want to thank you for inviting me here,
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it's a big treat for me to get to come to this conference.
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(Applause)
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Thanks.
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(Applause)
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