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Here's a question for you:
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how many different scents
do you think you can smell,
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and maybe even identify with accuracy?
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100?
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300?
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1,000?
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One study estimates that humans can
detect up to one trillion different odors.
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A trillion.
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It's hard to imagine,
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but your nose has the molecular
machinery to make it happen.
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Olfactory receptors --
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tiny, scent detectors --
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are packed into your nose,
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each one patiently waiting to be
activated by the odor,
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or [liggen],
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that it's been assigned to detect.
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It turns out we humans,
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like all vertebrates,
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have lots of olfactory receptors.
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In fact, more of our DNA is devoted
to genes for different olfactory receptors
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than for any other type of protein.
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Why is that?
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Could olfactory receptors
be doing something else
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in addition to allowing us to smell?
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In 1991, Linda Buck and Richard Axel
uncovered the molecular identity
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of olfactory receptors' work,
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which ultimately led to a Nobel Prize.
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At the time,
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we all assumed that these receptors
were only found in the nose.
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However, about a year or so later,
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a report emerged of an olfactory
receptor expressed in a tissue
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other than the nose.
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And then another such report emerged,
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and another.
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We now know that these receptors
are found all over the body,
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including in some pretty
unexpected places --
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in muscle,
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in kidneys,
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lungs,
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and blood vessels.
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But, what are they doing there?
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Well, we know that olfactory receptors
act as sensitive chemical censors
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in the nose --
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that's how they mediate
our sense of smell.
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It turns out they also act
as sensitive chemical sensors
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in many other parts of the body.
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Now, I'm not saying that your liver can
detect the aroma of your morning coffee
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as you walk into the kitchen.
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Rather, after you drink
your morning coffee,
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your liver might use an olfactory receptor
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to chemically detect that change
and concentration
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of a chemical floating
through your bloodstream.
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Many cell types and tissues in the body
use chemical sensors,
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or chemo sensors,
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to keep track of the concentration
of hormones, metabolites
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and other molecules,
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and some of these chemo sensors
are olfactory receptors.
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If you are a pancreas or a kidney,
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and you need a specialized
chemical sensor
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that will allow you to keep track
of a specific molecule,
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why are we [inventing] the wheel?
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One of the first examples
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of an olfactory sensor
found outside the nose
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showed that human sperm express
an olfactory receptor,
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and that sperm with this receptor
will seek out the chemical
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that the receptor responds to --
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the receptor's ligand.
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That is, the sperm will swim
toward the ligand.
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This has intriguing implications.
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Are sperm aided in finding the egg
by sniffing out the area
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with the highest ligand concentration?
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I like this example because
it clearly demonstrates
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that an olfactory receptor's primary job
is to be a chemical sensor,
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but depending on the context,
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it can influence how you perceive a smell,
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or in which direction sperm will swim,
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and as it turns out,
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a huge variety of other processes.
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Olfactory receptors have been implicated
in muscle cell migration,
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in helping the lung to sense
and respond to inhaled chemicals,
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hand and wound healing.
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Similarly, taste receptors once thought
to be found only in the tongue,
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are now known to be expressed in cells
and tissues throughout the body.
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Even more surpisingly,
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a recent study found
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that the light receptors in our eyes
also play role in our blood vessels.
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In my lab,
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we work on trying to understand the roles
of olfactory receptors and taste receptors
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in the context of the kidney.
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The kidney is a central control
center for homeostasis.
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And to us,
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it makes sense that a homeostatic
control center would be a logical place
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to employ chemical sensors.
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We've identified a number of different
olfactory and taste receptors
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in the kidney,
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one of which --
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olfactory receptor 78 --
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is known to be expressed in cells
and tissues that are important
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in the regulation of blood pressure.
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When this receptor is deleted in mice,
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their blood pressure is low.
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Surprisingly, this receptor
was found to respond
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to chemicals called
short-chain fatty acids
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that are produced by the bacteria
that reside in your gut --
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your guy microbiota.
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After being produced
by your gut microbiota,
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these chemicals are absorbed
into your bloodstream
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where they can then
interact with receptors
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like olfactory sensory 78,
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meaning that the changes
in metabolism in your gut microbiota
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may influence your blood pressure.
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Although we've identitified a number
of different olfactory and taste receptors
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in the kidney,
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we've only just begun to tease out
their different functions
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and to figure out which chemicals
each of them responds to.
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Similar investigations lay ahead
for many other organs and tissues --
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only a small minority of receptors
has been studied to date.
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This is exciting stuff.
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It's revolutionizing our understanding
of the scope of influence
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for one of the five senses.
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And it has the potential to change
our understanding of some aspects
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of human physiology.
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It's still early,
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but I think we've picked up on the scent
of something we're following.
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(Laughter)
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Thank you.
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(Applause)
closed TED
Brian Greene
The English transcript was updated on 7/31/16.
At 4:15, "hand and wound healing" was changed to: "and in wound healing."