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It`s Okay To Be Smart, Could You Be a Chimera?

Could You Be a Chimera?

Hey smart people, Joe here.

In 1960, a baby girl was born in a Seattle hospital.

She was healthy, though one of her eyes was brown, and the other was hazel.

Her organs were a bit unusual as well.

On one side of her body, she had an ovary; on the other, what looked like a testicle.

Strangest of all, when doctors tested her blood, they found a mix of two blood types.

Genetic tests revealed the cells in the girl's body came from two distinct individuals: a

male and a female.

This girl was what we call a chimera.

So how did this happen?

Her mother had been pregnant with fraternal twins, a boy and a girl, who had fused into

one embryo, resulting in a single healthy child.

Doctors used to think chimeras were extremely rare.

But as genetic testing has become more widespread and advanced, it turns out there's more

chimeras out there than we thought.

In fact, you might even be one.

[OPEN]

If the idea that humans could be weird mashups of two or more different individuals sounds

like something out of a monster myth, that's because it is.

Luckily, I know a real-life monsterologist, so I called my friend Dr. Emily Zarka from

the YouTube channel Monstrum to tell us more:

Dr. Z: The word “chimera” comes from the name of a great mythological beast in Ancient

Greek mythology, the Chimaera.

Said to have the body and head of a lion, the tail of a snake, and the head of a goat

placed randomly in the middle of its back, the monster first appears in the Iliad.

The Chimaera is killed, but because of her impossible hybridity, we've carried her

name with us through the centuries.

Thank you Dr. Z!

I just want to point out Emily really does study monsters for a living, which is so cool,

and you should definitely watch Monstrum, because it's awesome.

Now in biology, a chimera is not as scary as in the myth.

It simply refers to an individual who's an amalgamation of two or more genetically

distinct individuals of the same species, no goat heads growing out of their back or

anything.

For humans, this means a person containing cells from two or more different people.

The little girl in our example is called a tetragametic chimera because four gametes,

or reproductive cells, came together to create her.

Two of her father's sperm fertilized two of her mother's eggs, resulting in two embryos

that merged into one.

The fact that the two original embryos were of opposite sexes made this case of chimerism

easy to see on the genetic level, but sometimes, there's nothing obvious indicating a person

might be a chimera.

This story is super messed up.

In 2003, a woman named Lydia Fairchild nearly lost her four children because DNA tests said

she wasn't their mother.

A person inherits half of his or her DNA from each parent, so a mother and her child should

be at least a 50% match.

But when authorities tested DNA from her skin, hair, and saliva, it wasn't a 50% match

with her kids.

She shared much less than a parent should.

So authorities accused Lydia of kidnapping kids that weren't hers.

But then researchers looked at cells from Lydia's cervix, and that DNA matched her

children!

Because of these results, the court allowed Lydia to keep her kids.

Lydia was a chimera too!

But in her case, two female embryos had fused in the womb.

She was her own fraternal twin sister!

Genetically, some parts of her body made her the kids' aunt, while others made her their

mother.

These sound like one in a million cases, but recent research shows chimerism is far more

common than we once thought.

In 2012, a group of researchers examined the brains of 59 women who had died mostly in

their seventies.

They were looking for a gene found only on the Y chromosome - a chromosome that a biological

woman's cells shouldn't even have.

But they ended up finding the gene in almost two-thirds of the women's brains.

These women were chimeras– they had cells with male DNA!

And that male DNA most likely came from sons the women had given birth to decades earlier.

Scientists learned that during pregnancy, some cells from the fetus enter the mother's

bloodstream and migrate to various organs.

And they may stay there for decades, mixing with the woman's own cells.

This can even occur during pregnancies that end in miscarriage or abortion.

In other words, there is a good chance that your mom is a chimera (alt: which finally

explains the goat head.)

And if you're a mom yourself, you probably are, too - a microchimera, to be exact, since

you likely only have a small number of your children's cells still living inside you.

Carrying around your kids' cells for years on end might make you more prone to autoimmune

diseases, where your immune system gets confused about which cells belong to you and start

attacking your own tissues.

On the other hand, if some of your organs malfunction, your child's healthy cells

may actually step in and save the day.

When one woman's liver was damaged by hepatitis C, for example, her child's cells grew a

whole new chunk of liver for her.

When's the last time YOU got your mom something that nice?

Now, chimeras share their bodies with other people, but there's another way you might

share your body with different versions of yourself.

In a mosaic, a single cell in one body mutates and then keeps dividing, spawning a whole

separate lineage of cells in that body, genetically distinct from the rest.

Mosaicism can be really obvious.

Ever see a tree with a branch or two that look like they don't belong?

In medieval Europe, people used to call these strange growths “hexenbesen” - witches'

brooms.

Witches' broom is an odd tree growth where short branches grow in closely packed bunches

from a central source.

They can be a symptom of plant disease, or a result of genetic mutation—a mosaic in

fact.

While some of them do look like brooms, many of them actually resemble nests.

But keep in mind anything odd, especially anything even vaguely resembling a human object,

was at one time seen as unnatural.

Even supernatural.

Pretty much anything weird in nature was seen as monstrous.

Since witches, have been associated with riding brooms since at least the 14th century, people

saw these strange tree growths and gave them a name that tied to two things together.

Some people even believed the mutated branches could be used by witches for shelter.

The reality is much more mundane.

A few cells mutated in one part of the tree, and gave rise to a branch that looks different

from the rest of the tree.

In the case of the witches' broom, the mutations are harmless, but sometimes, the mutated cells

can cause more serious problems.

That's what happened in the most famous case of mosaicism: a 19th century Englishman

known as the “Elephant Man”.

Born Joseph Merrick, as a baby, strange outgrowths appeared on his head, arm, and other parts

of his body, crippling him to the point that soon, the only work available to him was serving

as a circus attraction.

Eventually, at age 27, Merrick's mysterious condition killed him.

Doctors now believe Merrick had Proteus syndrome, a condition named after a Greek sea-god who

could change his shape.

But the most dangerous case of mosaicism is one that's all too common: cancer.

In cancer, a few cells mutate and become different from the body's normal cells, eventually

dividing uncontrollably and growing into tumors.

In most cancers, it's the body's own cells that mutate and become cancerous [show “mosaicism”].

But, certain rare types of cancer can actually come from another individual's mutant cells

[show “chimerism”].

That's right: contagious chimeras.

That's what happens with canine transmissible venereal tumor.

A dog with this cancer develops tumors around the genitals.

When this dog mates with a healthy dog - because dogs just aren't that picky - some tumor

cells jump over to the healthy animal and soon, they're growing tumors on the new

dog.

These tumors grow in the bodies that carry them, but they didn't come from those dogs'

bodies.

The tumors are genetically distinct from the host, actually a piece of another dog that's

been passed from dog to dog to dog, back through time.

Scientists traced them to an ancient canine who lived about eleven thousand years ago,

around the end of the last Ice Age.

Yes.

A piece of one dog has been alive for 11,000 years - making this tumor the oldest dog ever.

Another chimeric cancer is threatening Australia's Tasmanian devils, which are now an endangered

species, they pass these facial tumors through biting each other.

Luckily, chimeric cancers are rare.

But mosaic cancers?

Sadly, they're anything but rare.

But really, even healthy bodies are mosaics.

Even yours.

Each of our bodies is a product of a huge number of cell divisions.

Minor changes to our DNA creep in, leading to whole lineages of cells that are a little

different from the rest, often in ways we can't see.

Almost all of us harbor multiple mutations–small changes in our bodies– that we weren't

born with.

If you sequenced the DNA from cells in your heart, your nose, and your left toe, I bet

none of them would be an exact match.

We like to think of our DNA as a unique marker of our identity that is set in stone for life.

For much of human history, people with genetic abnormalities were treated like monsters,

but modern science has taught us that, in fact, we're not all that different from

the Elephant Man - we're all mosaics.

And the longer we live, the more versions of ourself we become.

Stay curious!

Learn languages from TV shows, movies, news, articles and more! Try LingQ for FREE

Could You Be a Chimera? ||||Chimera Könnten Sie eine Chimäre sein? ¿Podrías ser una quimera? Potresti essere una chimera? あなたはキメラになれるか? Kun jij een chimaera zijn? Poderá ser uma Quimera? Можете ли вы быть химерой? 你能成为奇美拉吗? 你能成為奇美拉嗎?

Hey smart people, Joe here.

In 1960, a baby girl was born in a Seattle hospital. ||||||||Seattle|hospital

She was healthy, though one of her eyes was brown, and the other was hazel. ||||||||||||||hazel

Her organs were a bit unusual as well. |||||unusual||

On one side of her body, she had an ovary; on the other, what looked like a testicle. |||||||||female reproductive organ||||||||testicle

Strangest of all, when doctors tested her blood, they found a mix of two blood types. strangest||||doctors|||||||||||

Genetic tests revealed the cells in the girl's body came from two distinct individuals: a ||revealed||||||||||||

male and a female.

This girl was what we call a chimera. Dit meisje was wat we een hersenschim noemen.

So how did this happen?

Her mother had been pregnant with fraternal twins, a boy and a girl, who had fused into |mother|||||fraternal|twins||||||||fused|

one embryo, resulting in a single healthy child. |embryo|resulting|||||

Doctors used to think chimeras were extremely rare. ||||chimeras|||

But as genetic testing has become more widespread and advanced, it turns out there's more

chimeras out there than we thought.

In fact, you might even be one.

[OPEN]

If the idea that humans could be weird mashups of two or more different individuals sounds ||||||||mashups||||more||| Als het idee klinkt dat mensen rare mashups van twee of meer verschillende individuen kunnen zijn

like something out of a monster myth, that's because it is. |||||monster|||||

Luckily, I know a real-life monsterologist, so I called my friend Dr. Emily Zarka from ||||||monsterologist||||||||Zarka|

the YouTube channel Monstrum to tell us more: |||Monstrum||||

Dr. Z: The word “chimera” comes from the name of a great mythological beast in Ancient |Z|||||||||||mythological|beast|| Dr. Z: Het woord "chimera" komt van de naam van een groot mythologisch beest in de oudheid

Greek mythology, the Chimaera. Greek|mythology||Chimera

Said to have the body and head of a lion, the tail of a snake, and the head of a goat |||||||||lion||tail|||snake||||||

placed randomly in the middle of its back, the monster first appears in the Iliad. ||||||||||||||Iliad Вперше чудовисько з'являється в "Іліаді" з випадково розміщеною посередині спиною.

The Chimaera is killed, but because of her impossible hybridity, we've carried her |||||||||hybridity||| De Chimaera is gedood, maar vanwege haar onmogelijke hybriditeit hebben we haar gedragen

name with us through the centuries.

Thank you Dr. Z!

I just want to point out Emily really does study monsters for a living, which is so cool, ||||||||||monsters|||||||

and you should definitely watch Monstrum, because it's awesome.

Now in biology, a chimera is not as scary as in the myth. ||||||||scary|||| In de biologie is een hersenschim niet zo eng als in de mythe.

It simply refers to an individual who's an amalgamation of two or more genetically ||refers||||||combination|||||genetically

distinct individuals of the same species, no goat heads growing out of their back or

anything.

For humans, this means a person containing cells from two or more different people.

The little girl in our example is called a tetragametic chimera because four gametes, |||||||||tetragametic||||gametes Het kleine meisje in ons voorbeeld wordt een tetragametische hersenschim genoemd omdat vier gameten,

or reproductive cells, came together to create her. |reproductive||||||

Two of her father's sperm fertilized two of her mother's eggs, resulting in two embryos ||||sperm|fertilized||||mother's|||||embryos

that merged into one. |merged||

The fact that the two original embryos were of opposite sexes made this case of chimerism ||||||||||sexes|||||chimerism Het feit dat de twee oorspronkelijke embryo's van het andere geslacht waren, maakte dit geval van chimerisme

easy to see on the genetic level, but sometimes, there's nothing obvious indicating a person ||||||||||||indicating||

might be a chimera.

This story is super messed up.

In 2003, a woman named Lydia Fairchild nearly lost her four children because DNA tests said ||||Lydia|Fairchild|||||||||

she wasn't their mother.

A person inherits half of his or her DNA from each parent, so a mother and her child should ||inherits|||||||||parent|||||||

be at least a 50% match. ||||match

But when authorities tested DNA from her skin, hair, and saliva, it wasn't a 50% match ||authorities||||||||saliva||||

with her kids.

She shared much less than a parent should.

So authorities accused Lydia of kidnapping kids that weren't hers. ||accused|||kidnapping||||

But then researchers looked at cells from Lydia's cervix, and that DNA matched her |||||||Lydia|cervical tissue||||matched|

children!

Because of these results, the court allowed Lydia to keep her kids. |||results||||||||

Lydia was a chimera too!

But in her case, two female embryos had fused in the womb. |||||||||||womb

She was her own fraternal twin sister! |||||twin|sister

Genetically, some parts of her body made her the kids' aunt, while others made her their ||||||||||aunt|||||

mother.

These sound like one in a million cases, but recent research shows chimerism is far more |||||||||recent||||||

common than we once thought.

In 2012, a group of researchers examined the brains of 59 women who had died mostly in |||||examined|||||||||

their seventies. |seventies

They were looking for a gene found only on the Y chromosome - a chromosome that a biological |||||||||||chromosome|||||

woman's cells shouldn't even have. woman's||should not||

But they ended up finding the gene in almost two-thirds of the women's brains. ||||||||||two-thirds||||

These women were chimeras– they had cells with male DNA!

And that male DNA most likely came from sons the women had given birth to decades earlier. ||||||||sons|||||birth|||earlier

Scientists learned that during pregnancy, some cells from the fetus enter the mother's ||||pregnancy|||||fetus|enter||

bloodstream and migrate to various organs. bloodstream||migrate|||

And they may stay there for decades, mixing with the woman's own cells.

This can even occur during pregnancies that end in miscarriage or abortion. |||||pregnancies||||||abortion

In other words, there is a good chance that your mom is a chimera (alt: which finally ||||||||||mom||||which finally||

explains the goat head.) explains|||

And if you're a mom yourself, you probably are, too - a microchimera, to be exact, since |||||||||||microchimera||||

you likely only have a small number of your children's cells still living inside you. |||||||||children|||||

Carrying around your kids' cells for years on end might make you more prone to autoimmune |||||||||||||||autoimmune Носіння клітин ваших дітей протягом багатьох років може зробити вас більш схильними до аутоімунних захворювань.

diseases, where your immune system gets confused about which cells belong to you and start diseases||||||confused||||||||

attacking your own tissues. attacking|||

On the other hand, if some of your organs malfunction, your child's healthy cells |||||||||malfunction||child's||

may actually step in and save the day.

When one woman's liver was damaged by hepatitis C, for example, her child's cells grew a |||||damaged||||||||||

whole new chunk of liver for her.

When's the last time YOU got your mom something that nice? when is||||||||||

Now, chimeras share their bodies with other people, but there's another way you might

share your body with different versions of yourself.

In a mosaic, a single cell in one body mutates and then keeps dividing, spawning a whole ||||||||||||||producing||

separate lineage of cells in that body, genetically distinct from the rest. |lineage||||||||||

Mosaicism can be really obvious. Mosaicism|||| Mozaïek kan heel duidelijk zijn.

Ever see a tree with a branch or two that look like they don't belong? ||||||branch||||||||

In medieval Europe, people used to call these strange growths “hexenbesen” - witches' |medieval||||||||growths|broomsticks|witches

brooms. brooms bezems.

Witches' broom is an odd tree growth where short branches grow in closely packed bunches |broom|||||||||||||bunches

from a central source. ||central|

They can be a symptom of plant disease, or a result of genetic mutation—a mosaic in ||||symptom|||||||||mutation|||

fact.

While some of them do look like brooms, many of them actually resemble nests. |||||||cleaning tools||||||nests

But keep in mind anything odd, especially anything even vaguely resembling a human object, |||||||||vaguely|resembling|||

was at one time seen as unnatural. ||||||unnatural

Even supernatural. |supernatural

Pretty much anything weird in nature was seen as monstrous. |||||||||monstrous

Since witches, have been associated with riding brooms since at least the 14th century, people

saw these strange tree growths and gave them a name that tied to two things together. |||tree||||||||tied||||

Some people even believed the mutated branches could be used by witches for shelter. |||||||||||||shelter

The reality is much more mundane. |reality||||ordinary and unexciting

A few cells mutated in one part of the tree, and gave rise to a branch that looks different

from the rest of the tree.

In the case of the witches' broom, the mutations are harmless, but sometimes, the mutated cells ||||||||mutations||harmless|||||

can cause more serious problems. |||serious|

That's what happened in the most famous case of mosaicism: a 19th century Englishman

known as the “Elephant Man”.

Born Joseph Merrick, as a baby, strange outgrowths appeared on his head, arm, and other parts |Joseph||||||growths||||||||

of his body, crippling him to the point that soon, the only work available to him was serving |||crippling||||||||||||||serving

as a circus attraction. |||attraction

Eventually, at age 27, Merrick's mysterious condition killed him. eventually|||Merrick's||condition||

Doctors now believe Merrick had Proteus syndrome, a condition named after a Greek sea-god who |||||Proteus|syndrome|||||||||

could change his shape.

But the most dangerous case of mosaicism is one that's all too common: cancer. |||dangerous||||||||||cancer

In cancer, a few cells mutate and become different from the body's normal cells, eventually |||||mutate|||||||||

dividing uncontrollably and growing into tumors. |uncontrollably||||

In most cancers, it's the body's own cells that mutate and become cancerous [show “mosaicism”]. ||||||||||||cancerous||

But, certain rare types of cancer can actually come from another individual's mutant cells |||||||||||individual's|mutant|

[show “chimerism”].

That's right: contagious chimeras. ||contagious|

That's what happens with canine transmissible venereal tumor. ||||dog-related||venereal|

A dog with this cancer develops tumors around the genitals. |||||develops||||genitals

When this dog mates with a healthy dog - because dogs just aren't that picky - some tumor |||||||||||||picky||

cells jump over to the healthy animal and soon, they're growing tumors on the new |jump|||||||||||||

dog.

These tumors grow in the bodies that carry them, but they didn't come from those dogs'

bodies.

The tumors are genetically distinct from the host, actually a piece of another dog that's

been passed from dog to dog to dog, back through time.

Scientists traced them to an ancient canine who lived about eleven thousand years ago, |traced|||||canine|||||||

around the end of the last Ice Age.

Yes.

A piece of one dog has been alive for 11,000 years - making this tumor the oldest dog ever.

Another chimeric cancer is threatening Australia's Tasmanian devils, which are now an endangered |chimeric|||threatening|Australia|Tasmanian||||||endangered Een andere chimere kanker bedreigt de Tasmaanse duivels van Australië, die nu een bedreigde diersoort zijn

species, they pass these facial tumors through biting each other. ||||facial|||biting||

Luckily, chimeric cancers are rare.

But mosaic cancers? but||

Sadly, they're anything but rare. ||||rare

But really, even healthy bodies are mosaics. ||||||mosaics

Even yours.

Each of our bodies is a product of a huge number of cell divisions. |||||||||||||divisions

Minor changes to our DNA creep in, leading to whole lineages of cells that are a little Minor|||||creep||leading|||lineages||||||

different from the rest, often in ways we can't see. ||||||||can’t|

Almost all of us harbor multiple mutations–small changes in our bodies– that we weren't ||||harbor||||||||||

born with.

If you sequenced the DNA from cells in your heart, your nose, and your left toe, I bet ||sequenced|||||||||||||toe||

none of them would be an exact match.

We like to think of our DNA as a unique marker of our identity that is set in stone for life. ||||||||||marker|||identity|||||||

For much of human history, people with genetic abnormalities were treated like monsters, ||||||||abnormalities||treated||

but modern science has taught us that, in fact, we're not all that different from ||||taught||||||||||

the Elephant Man - we're all mosaics.

And the longer we live, the more versions of ourself we become. |||||||||ourselves||

Stay curious!