-
OK.
-
So we are going to start in 1891,
-
when a German scientist
was looking through a microscope
-
at insect cells.
-
And he saw something kind of funny.
-
At the center of the cells,
there was this dark stuff.
-
No one had ever seen it before,
-
and he noticed that as the cells
would multiply and divide,
-
it would go into some of the new cells
-
but not the others.
-
He didn't know what it was,
so he gave it a really great name.
-
He called it the X element.
-
And he was like,
"We'll just fill in that X later."
-
And then, fast forward 10 years later,
-
and there is an American scientist
-
and she is looking through her microscope
-
also at insect cells.
-
And she sees something funny.
-
There's more of this dark stuff.
-
And it's kind of tiny,
-
it's hanging out near the X element,
-
and eventually, someone was like,
-
"Well, if that one thing is called X,
-
should we call this other thing Y?"
-
And like that,
-
the sex chromosomes had been discovered.
-
So chromosomes,
-
you probably all know what they are,
-
but I will tell you anyways.
-
They're made up of DNA,
-
everything has it,
it's the blueprint of life,
-
we've got rats, we've got trees,
-
we've got insects, we've got humans.
-
And in the case of human chromosomes,
-
geneticist Melissa Wilson
broke it down for me like this.
-
(Audio) Melissa Wilson: Typically,
you'll get one copy of every chromosome
-
from your genetic mom
-
and one copy of every chromosome
from your genetic dad
-
and we have 22 of these
-
that you get one copy from mom
and one copy from dad.
-
And then there's the 23rd pair, X and Y.
-
Molly Webster: So while all
the other chromosomes are numbered,
-
one through 22,
-
we do not call X and Y 23.
-
I like to think that they are waiting
for like, a LeBron Jame to come along.
-
But in this instance, they were like,
-
"We're just going to keep the letters,
-
and then we'll give them a title."
-
They called them the sex chromosomes.
-
Now, I would wager
that in the United States
-
these are the most well-known chromosomes
-
for one simple fact.
-
That we say X equals girl,
and Y equals boy.
-
That they are responsible for sex.
-
And -- and I had to learn this --
-
but when I'm talking about sex here,
-
I'm talking about the way biology
gives us gonads, right.
-
Which are our ovaries and our testes,
-
I'm not talking about gender,
-
which is how we identify.
-
And so, as a reporter at the show --
-
"Radiolab," the audio documentary
program I work for --
-
I was like, what's up
with these sex chromosomes?
-
You know, that's kind of my job,
I think things are weird,
-
and then I get to call people about them
-
and ask questions
and then hopefully they answer.
-
And in this case,
a lot of people answered.
-
And in the two years I had
of reporting on X and Y,
-
as part of "Gonads,"
the series on sex and gender
-
I ended up doing for "Radiolab,"
-
I found out that these two chromosomes
-
live in a world that is unexpected,
-
a little unsettling,
-
where things that I thought were facts
-
were like, twisted in ways
I hadn't seen before.
-
And the world goes so far
beyond the boundaries of sex,
-
I was like,
-
"Maybe we should all talk about this."
-
So, here you all,
-
we're all going to talk about it.
-
And for me,
-
the true story of X and Y
starts with their name.
-
So within years of being discovered,
-
these two little chromosomes
had acquired more than 10 different names.
-
There was diplosome and hetero chromosome
-
and idiochromosome
-
and most of the names had to do
with their structure, their shape,
-
their size.
-
And then there was sex chromosome,
-
which they had been given
because of the fact
-
that we had started seeing that the X
would go with the females,
-
and the Y would often go with the males.
-
But, scientists were like,
-
"Do we really want
to call them sex chromosomes?"
-
And science historian Sarah Richardson
-
is the one who told me this story.
-
(Audio) Sarah Richardson:
For three decades, scientists were like,
-
"You should not call them
the sex chromosomes.
-
The X and Y have many functions,
-
and you wouldn't assume
that a single chromosome
-
controls a single trait.
-
Imagine calling one chromosome
the urogenital chromosome,
-
or the liver chromosome."
-
Scientists, if you dig into the history --
-
it's really cool, you should --
-
were hesitant to like,
commit to such a specific name,
-
and such a powerfully connotated name.
-
There was a fear that it would
actually be really limiting,
-
maybe to science, maybe to society,
-
but the fear was in the room.
-
And you can see,
-
they ended up getting "sex chromosome,"
-
it's like a pretty juicy title,
-
it popularized genetics, you know?
-
But in the 100-year history
since we settled on that name,
-
you can see it starts
to get a little complicated.
-
So around 1960 --
-
this is going to be our first stop
-
Ont he complicated world
of the sex chromosomes --
-
so around 1960,
-
we had discovered that you could be XYY.
-
They discovered an XYY man.
-
And to digress a little here,
-
it turns out that the model
of X equals girl and Y equals boy
-
is really simplistic.
-
You can actually be a whole bunch
of different combinations of X and Y,
-
giving you, like, different types
of biological sex.
-
You could be two Xs and two Ys together.
-
You could be four Xs,
you could be five Xs,
-
you could be XO.
-
And so I thought that was pretty crazy,
-
because I was like,
-
wow, this really upends
a model of biological sex
-
I think most of us in this room
have been taught.
-
So a few years after they realized
that you can be XYY,
-
researchers go to a prison in Scotland
-
and they do genetic analysis
of a bunch of the male prisoners.
-
And they find a number
of people who are XYY.
-
And according to Sarah:
-
(Audio) SR: They just rushed
to publish a theory
-
suggesting that this extra Y chromosome
-
could explain criminality in some men."
-
Yeah.
-
So the logic goes like this:
-
By this point, we're thinking Y is male.
-
We think male is aggressive,
-
so Y must be aggression.
-
If you've got an extra Y,
you must be crazy.
-
And like, we went nuts with this theory.
-
We called it the super male,
-
they started scanning more prisoners,
-
serial killers, boys.
-
And in all seriousness,
-
there was actually a suggestion
that we consider aborting XYY fetuses.
-
So in 1980,
-
this theory pretty much toppled
for a number of reasons.
-
One,
-
there had been this really large study
-
that basically showed
there was no connection
-
between Y and violence,
-
I think we all saw that coming.
-
And then there was one other thing.
-
(Audio) SR: Going back
and looking at those original findings
-
in that high-security
psychiatric institution,
-
they had also found
a high number of individuals
-
with an extra X chromosome.
-
So these are XXY, as opposed to XYY.
-
MW: Really?
-
SR: Yeah. Now they never claimed
-
that the individuals
with an extra X chromosome
-
were super females.
-
They never investigated
-
whether they had higher rates of violence.
-
MW: Seems like kind of an oversight.
-
I don't know.
-
But I think it's interesting,
-
because what you see is if you start
looking at these chromosomes
-
through the lens of sex,
-
what naturally falls in place behind
-
is we look at them
through the lens of gender,
-
and the traits that we
associate with gender.
-
So men were violent,
-
and Y explained why they were in prison.
-
The X did not do that,
-
because like, you know, what's X?
-
We don't associate it with violence.
-
And while we don't believe
in super males today,
-
God, I hope we don't,
-
we don't believe in super males today,
-
there is a very similar conversation
that's still happening
-
around inherent
violence in boys and biology.
-
So my next stop
on the weird world of X and Y
-
or things feeling
a little topsy-turvy, is 1985.
-
The World University Games
were set to happen in Japan,
-
and the Spanish hurdler María José
Martínez-Patiño was scheduled to run.
-
She was like a hot shot,
a rising superstar.
-
And the night before her race,
they had her DNA scanned.
-
Now at the time, this was a thing
that they were doing,
-
because they were like,
-
"OK, we don't want men
covertly racing as women,
-
so we're going to scan the women
-
and make sure all their Xs line up."
-
And so I heard this story
from Ruth Padawer
-
who was a New York Times Magazine reporter
-
and she reported on María.
-
(Audio) Ruth Padawer: So they tell her
the chromosome test results were abnormal.
-
Although on the outside
she was fully female,
-
she had XY chromosomes
and these internal testes.
-
They were like,
-
"We hate to break it to you, María,
but you're actually a dude.
-
You can't race with the ladies."
-
(Audio) RP: and so she's thrown
off the national team,
-
she's expelled from
the athletes' residence,
-
she's denied her scholarship,
-
a bunch of her friends dump her,
-
fellow athletes abandon her,
-
she looses her medals,
her records are revoked.
-
So it turns out --
-
remember when I told you
-
it can be a bunch of different
combinations of X and Y,
-
you can also be XY and be female.
-
You can be XX and male.
-
In María's case, she was something called
androgen insensitive.
-
Which means that she did have
some sort of internal testes,
-
they were making testosterone,
-
but her body couldn't use it.
-
And so if you thought of testosterone
as like, a superpower,
-
she was not benefiting from it.
-
And so eventually,
-
sports authorities like, let her back in,
-
but her career was done.
-
And in this instance you see how,
-
if you assign sex
to a specific place in the body,
-
or at least like,
this is what I saw, right?
-
If you assign sex
to a specific place in the body,
-
it somehow makes us think
that we can go into a body,
-
look at a specific place
-
and tell someone we know
something more about them
-
than they know about themselves.
-
And that feels terrifying to me.
-
And we don't genetically test
female athletes anymore,
-
but you can see very similar
conversations happening
-
when we talk about testosterone in sports,
-
you can also see it in suggestions
that we take transgender individuals
-
and we genetically analyze them
and we tell them who they are.
-
That is real,
-
that is a conversation
that has happened recently.
-
The last place that I'll share with you
-
where these chromosomes
got complicated for me,
-
is this one thing that Melissa told me.
-
(Audio) MW: You can't survive
without an X chromosome.
-
No matter your gonads,
no matter your identity,
-
every single human being
has to have an X chromosome,
-
because without one,
the rest of your body doesn't develop.
-
MW: Why do we call this
the female chromosome?
-
OK, this is something
I had never though about,
-
but literally, every single person
in this audience has an X chromosome,
-
I'm not lying.
-
Every single person on the planet
has an X chromosome,
-
but no one is going around like,
"This is the every-person chromosome."
-
You know?
-
Like, somehow it's over here,
the Y is over there,
-
and they must be really different,
-
and I'm just like,
it would be so much better
-
if it was the every-person chromosome.
-
And not just because I'm like,
love you all and I want you all in,
-
but because of what we're overlooking
-
by the fact that we consider it female.
-
Because I'm going to tell you
one of the craziest things I found out.
-
Which is, when you think
about the X chromosome,
-
of the almost 1,100 genes
on the X chromosome,
-
how many do you think have to do
with sex and reproduction?
-
Like, get a number in your head.
-
Four percent.
-
That means 96 percent
of the rest of that chromosome
-
is doing something that has nothing
to do with your gonads.
-
And I guess as all of these,
-
sort of, some of them social stories,
-
some of them scientific stories,
some of these facts,
-
started to add up, I just thought, like,
-
why are we calling these
the sex chromosomes?
-
Or if we are, like,
maybe we all like that name,
-
should we just allow ourselves
to think about them
-
a little more broadly?
-
Because if we do,
-
like, what insights would we gain,
-
as people, as scientists?
-
And we're at this point
where we're thinking about like,
-
how do we want to teach science,
-
what do we want to fund,
-
like, who do we want to be
as a society, you know?
-
And I just wondered if it wasn't a moment
-
to rethink the biology of X and Y,
-
and at the very least,
-
to remember like,
the footnotes of history,
-
which is that the dude who came up
with the phrase "sex chromosome,"
-
actually was like, "Hey, everyone,
just remember, this is just,"
-
and I quote, "a form of shorthand."
-
We should not take it literally.
-
Thank you.
-
(Applause)
closed TED
