Stuff You Should Know - Short Stuff: Blaschko's Lines
Episode Date: October 12, 2022Did you know you have stripes? It’s true, you just can’t see them. Learn all about these little-known lines today!See omnystudio.com/listener for privacy information....
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Hey, I'm Lance Bass, host of the new iHeart podcast Frosted Tips with Lance Bass.
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you in February. Hey, and welcome to the short stuff. I'm Josh and there's Chuck Talley Ho.
It's short stuff time. And we're talking about something that admittedly I kind of understand
and kind of hope you really understand. I do. Good. I do. Also, before we start,
I want to give a hat tip to my wife, Yumi, who came up with this one. She said,
have you ever heard of this? It's crazy. And I looked into it and I was like,
this is crazy because what Yumi found and what we're about to explain to all of you is that humans
are a species. Don't forget we're animals with stripes. We actually are a striped species
of animal. Did you know that before? I had never heard of this. I did not know we were all
brindle-coated animals like my dog Niko. Yeah, that's exactly right. That's exactly what we are.
We have beautiful patterns of swirls and whirls and drips and drops and all sorts of cool stuff
all over us. But we can't see them normally under normal circumstances because we don't see
on the UV side of the spectrum. But if we did, we'd be like, hey, I like your stripes. Well,
I like your stripes. And with some people, depending on the condition they have,
they actually, their stripes actually show. It's pretty interesting stuff. But the whole thing
we're talking about, if you noticed the title of this episode, are what are called Blash Coase
Lines. Those are the stripes that all humans have. Now, did this happen because Yumi had a
black light and went, oh my God. I don't know where she turned this one up. I didn't ask her.
I'll have to ask her and then we'll record a pickup. All right. So hold on. Insert answer here.
So Blash Coase Lines, that is in fact a name. It was named after a dermatologist, Alfred Blash Coase
in the 1900s. He was the first person to notice this basically and write about it.
He thought, he was a little bit off though, because he thought that they followed
predefined patterns on humans. But they don't. And the weird thing is, as you might think,
is like, all right, so maybe these are lines that sort of indicate where your blood vessels are,
or your nerve endings are, or your nerves or whatever. That is not the case. These stripes
are not blood vessels that you can see under a black light at all. But we kind of know what it
is now, right? Right. Yeah. There's no system in the body that these things follow. Instead,
they're their own thing. They seem to be their own thing. And they are distinct on all people,
but there are kind of some general patterns that we'll talk about. But what we've come up with
finally today, still today, we're not 100% certain that this is correct. But the general consensus
is that what Blash Coase Lines are evidence of the migratory route that our skin cells took
and then settled into while we were developing in the womb. Right. I'm just going to read this
little bit from Mental Floss, because I think it kind of sums it up nicely. Yeah, I thought so too.
And we always love to shout out our old pals at Mental Floss. The MFers.
The MFers. Basically, they said, these are cellular relics of our development,
basically, from single cell things. I thought you were quoting this.
You're paraphrasing all over. No, no, no. I'm paraphrasing the beginning. As the cells divided,
they differentiated. Some became muscles, others bones, still others organs, and some became skin
as those skin cells continued dividing. They expanded and stretched to cover a quickly growing
body. One cell line pushed and swirled through another like steamed milk poured into an espresso
to make a latte. And Blash Coase Lines are the molecular evidence of those swirls.
That was very pretty writing. It was. So the reason that we can see these lines, Chuck,
I think we should talk about after a break. Oh, mm hmm.
Lance Bass and my favorite boy bands give me in this situation. If you do, you've come to the
right place because I'm here to help. This I promise you. Oh God. Seriously, I swear.
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I don't believe in astrology, but from the moment I was born, it's been a part of my life.
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So the reasons we can see these lines, Chuck, I think we should talk about now.
Very nice. So they believe that the reason that there's differences, even though you can only
see them under the UV spectrum, under normal circumstances, you cannot see the difference
between skin cells on your arm, or on your shoulder, or on your torso, wherever. And you have
Blaschko's lines all over your body as we'll see. Because the cells that make up our skin are almost
entirely identical. They all come from generally the same genetic information. So they all start
out from the same cell or globs of cells like Mental Floss pointed out. But because of the
different minute experiences that each cell has, those instructions get produced in just slightly
different ways so that we think of ourselves as genetically monolithic beings. It turns out
the term for humans are mosaics. All of those cells are so slightly different that it's almost
like slightly different colored tiles being put up against one another. And they're so similar
that, again, under normal light, you can't see the difference. But when you put yourself under
a black light in a dark room, those differences show up. That's why they think we're able to see
Blaschko's lines. That's why they think we have them. It's the same reason when you look at identical
twins, they're actually a little bit different. Again, these environmental factors that happen
when you're a twin. And in fact, we just did an episode recently. What was it on? Just this week.
On doppelgangers. Doppelgangers, when they've seen a lot of evidence like when twins are split up at
birth, they end up being quite a bit different. And it's because of epigenetics, these environmental
factors. But even if they aren't broken up, even if they're together, these twins are these minute
little genetic differences that end up meaning these twins are a little bit different. And that's
the same basic concept here. Yeah. But rather than whole people, we're talking about the difference
between genetically identical cells. Right. Within one person. There is something else called
chimerism. So instead of mosaicism, this is chimerism. And some people can have different genetic
material within them. So like very famously, people with two different eyes, they're chimeris,
or they're chimeric, I should say, because different genetic information went into constructing
each eye. And that's why they have two different colored eyes. That's extraordinarily rare.
Mosaicism apparently is universal. We're just not, if you took one cell in another cell and you
could get as granular as possible in investigating them, you'd see that they are just slightly
not the same, even though they came from the same blueprint. Yeah, there's a New York Mets picture
that has one blue eye and one dark eye. Is that David Bowie, number 72? No, it's Max Scherzer.
And boy, it's just, I didn't even notice it until last year. And this is a guy who's sort of at the
latter stages of his career. But then once you see a picture of this guy, you're like, oh my god,
it's really a striking difference because it's a very, very blue eye and a very, very brown eye.
And I just think it's so cool looking. Yeah, for sure. Like what a, I don't know, I would just
always just go right up to people's faces and then go, hi, how are you? Freak him out a little bit.
I think it's really cool. Give him the left side and then the right side and the left side and
the right side. Yeah. So like we said, there's kind of some general rules that these lines
will follow depending on where you are on your body, right? Yeah, there's like patterns,
which makes sense because, you know, all of us sort of grow generally in the same way,
as far as arms and legs and fingies and toes and torsos and necks and armpits and all that stuff.
So depending on, can we keep naming parts? Yeah. How about the dirty parts?
Let's start. They're only two. So when you're looking at a body like there will be maybe a V
shape down your back and inverted you from the breast to the upper arm. Your lateral trunk
will have a wave-like shape. There might be an S shape on your abdomen, stuff like that.
Yeah. Your scalp, actually, if you look at your whole head, it looks like, as far as your
blast code lines are concerned, that you're wearing a balaclava, like around your eye areas open,
but there's different lines surrounding it else-wise. And apparently on your scalp, it spirals,
whereas on the side of your face, they're like kind of vertical lines. It's pretty cool. I think
Blashcoe himself did some initial descriptions of it through sketches, but since then science has
really kind of gotten pretty good at drawing it. So there's a lot of neat drawings of Blashcoe's
lines on the internet of all places. Was he early 1900s? He was like 1901 from what I saw.
Oh, okay. The earliest. But Chuck, I think you should take the fact of the short stuff,
that the Blashcoe's lines don't just exist on the skin, right? Yeah, this was pretty freaky.
Apparently your teeth and eyes and tongue all have Blashcoe's lines as well. Yeah.
Which makes sense. I mean, anything that forms from cells, expressing themselves,
writing cool poetry and songs. You mentioned earlier, though, about there are certain conditions
that someone might have where these lines are revealed in regular light with regular vision,
right? Yeah, yeah. So vitiligo, where your skin loses its pigmentation, it often follows Blashcoe's
lines. Also, there's other types of congenital conditions, I believe, and some inquired ones
where, so vitiligo would be like a negative of your Blashcoe's lines, whereas some of the other
ones, they're like, it's like a tiger stripes. Like you can see the person's Blashcoe's lines
because it's hyperpigmented. So you can see them without UV light. You can just see them under
normal visible light. And it's pretty cool-looking, actually, I have to say. Yeah, although usually
if you look up on the internet and see what this looks like, it's just like close-ups of armpits
and stuff. Sure, sure. And I say it's pretty cool-looking. I don't know how somebody who has
a condition where their Blashcoe's lines are showing all the time feel about it, but as an
observer, I think it's pretty interesting and neat. And then also, when you stop and think about it,
if you're like, that person's skin is striped, your skin is striped too, pal. You just don't
see it because you have to see it under normal UV lights. Yeah, pretty cool. Yeah. So that's it
for Blashcoe's lines, eh? Thanks, Yumi. And thank you, friend, for listening to this episode.