Rob Knight: How our microbes make us who we are
Rob Knight explores the unseen microbial world that exists literally right under our noses -- and everywhere else on (and in) our bodies. Full bio
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about the health of our bodies,
at figuring out what's important.
they thought they'd need in the afterlife,
preserved the stomach, the lungs,
drained it out through the nose,
do for us anyway?
of neglected organ in our bodies
as important to who we are,
and treated with such disregard.
through new scientific advances,
we think of ourselves.
have something just like that:
in our gut that are important.
to a whole range of differences
way more often than others?
experience out camping is actually true.
get bitten by mosquitos,
attracts them in droves,
different microbes on our skin
that the mosquitos detect.
in the field of medicine.
you have in your gut
are toxic to your liver.
drugs will work for your heart condition.
who you want to have sex with.
before we find out. (Laughter)
a huge range of functions.
be affecting our behavior.
microbial communities look like?
for understanding biodiversity.
have different landscapes of organisms
of one place or another
although I've got to be honest with you:
look the same under a microscope.
to identify them visually,
at their DNA sequences,
the Human Microbiome Project,
of researchers came together
in the human body.
they look like this.
to tell who lives where now, isn't it?
computational techniques that allow us
of sequence data
that's a bit more useful as a map,
with the human microbiome data
all the complex microbes
all look the same.
represents one microbial community
of one healthy volunteer.
parts of the map in different colors,
regions of the body,
the oral community up there in green.
we have the skin community in blue,
we have the fecal community in brown.
in different parts of the body
those two microbial communities
between the microbes in this reef
when you think about it.
of difference in the human body
to your microbial ecology
look basically the same
in terms of our human DNA.
in terms of your human DNA
in terms of your gut microbes.
as the bacteria on this prairie
of functions that I told you about,
in different kinds of diseases,
of those microbes in our gut,
you think of as our bodies.
of about 10 trillion human cells,
as 100 trillion microbial cells.
we're human because of our DNA,
about 20,000 human genes,
to 20 million microbial genes.
we're vastly outnumbered
to traces of our human DNA,
of our microbial DNA
the palm of someone's hand up
that they use routinely
a few years ago,
it was featured on "CSI: Miami,"
come from in the first place?
some dark suspicions about that,
you to your computer equipment
are relatively stable,
microbial identity
months, even years.
first microbial communities
the regular way,
like the vaginal community,
delivered by C-section,
look like skin.
with some of the differences
even more obesity,
to microbes now,
until recently, every surviving mammal
of those protective microbes
might be really important
that we now know involve the microbiome.
a couple of years ago
with those vaginal microbes
whether this has had an effect
no matter how much we love her,
enough of a sample size
she hasn't had an ear infection yet,
crossed on that one.
to do clinical trials with more children
this has a protective effect generally.
on what microbes we have initially,
again here is this map
a sample from one body site
develop physically.
you're going to see
develop microbially.
at this one baby's stool,
which represents the gut,
for almost two and a half years.
is going to start off as this yellow dot,
basically in the vaginal community,
over these two and a half years
all the way down
healthy volunteers down at the bottom.
and we'll see how that happens.
each step in this is just one week,
of the feces of this one child,
are much greater
individual healthy adults
down at the bottom.
to approach the adult fecal community.
is about to happen here.
for an ear infection.
this huge change in the community,
just over these few weeks,
of normal development,
reached the healthy adult stool community,
because it raises fundamental questions
at different ages in a child's life.
the microbiome is changing so rapidly,
into a stormy sea,
that if you give children antibiotics
to become obese later on
or only get them later,
may have profound impacts
and on later health
in addition to the effects
on antibiotic-resistant bacteria,
our gut microbial ecosystems,
to regard antibiotics with the same horror
for those metal tools
to mush up the brains
for embalming.
have all these important functions,
just over the past few years,
of different diseases,
large effect, as it turns out,
whether you're lean or obese
as a medical test,
which of these people is obese
about their gut microbes,
if we sequence their complete genomes
was obese with about 60 percent accuracy.
of microbes that you carry around with you
for some health conditions
to all kinds of additional conditions,
these microbial differences
are cause or effect?
is we can raise some mice
in a germ-free bubble.
that we think are important,
from an obese mouse
into a genetically normal mouse
with no microbes of its own,
from a regular mouse.
is absolutely amazing, though.
is that the microbes
more efficiently from the same diet,
from their food,
are actually affecting their behavior.
more than the normal mouse,
eat as much as they want.
can affect mammalian behavior.
also do this sort of thing across species,
from an obese person
you've raised germ-free,
from a lean person,
that we inoculate them with
from gaining this weight.
by the Gates Foundation,
is children in Malawi
a profound form of malnutrition,
community transplanted into them
the same peanut butter-based supplement
the children in the clinic,
of the kwashiorkor children do fine.
that we can pilot therapies
in a whole bunch of different mice
all the way down to the individual level.
that everyone has a chance
called American Gut,
for yourself on this microbial map.
science project that we know of --
have signed up at this point.
they send in their samples,
and then release the results back to them.
to scientists, to educators,
of the general public, and so forth,
at the BioFrontiers Institute,
and lasers to look at poop,
everyone wants to know.
if you're interested
are not just important
in terms of our health,
we've been able to visualize
at the University of Minnesota.
of the human microbiome again.
of some people with C. diff.
up to 20 times a day,
antibiotic therapy for two years
some of the stool from a healthy donor,
do battle with the bad microbes
are about to get a transplant
in the gut community.
coming to resemble the donor's community,
of this discovery.
have implications
bowel disease to obesity,
a kind of microbial GPS,
where we are currently
and what we need to do
to make this simple enough
(Laughter)
ABOUT THE SPEAKER
Rob Knight - Microbial ecologistRob Knight explores the unseen microbial world that exists literally right under our noses -- and everywhere else on (and in) our bodies.
Why you should listen
Using scatological research methods that might repel the squeamish, microbial researcher Rob Knight uncovers the secret ecosystem (or "microbiome") of microbes that inhabit our bodies -- and the bodies of every creature on earth. In the process, he’s discovered a complex internal ecology that affects everything from weight loss to our susceptibility to disease. As he said to Nature in 2012, "What motivates me, from a pragmatic standpoint, is how understanding the microbial world might help us improve human and environmental health.”
Knight’s recent projects include the American Gut, an attempt to map the unique microbiome of the United States using open-access data mining tools and citizen-scientists to discover how lifestyle and diet affect our internal flora and fauna, and our overall health.
Knight is the author of the TED Book, Follow Your Gut: The Enormous Impact of Tiny Microbes.
Rob Knight | Speaker | TED.com