Milk, and the Mutants That Love It
Summary
TLDRThis video script explores the fascinating evolutionary journey of lactose tolerance in humans. It explains how the ability to digest lactose beyond infancy, a trait known as lactase persistence, emerged around 7,500 years ago in central Europe due to a genetic mutation. This mutation allowed adults to continue producing lactase, the enzyme necessary for lactose digestion. The trait spread with human migration, particularly in northern regions where dairy was beneficial for storage and nutrition, especially in vitamin D. Today, lactose tolerance varies widely, with highest prevalence in northern Europe and much lower rates in the Mediterranean, Africa, and Asia. The script humorously dubs lactose tolerant individuals as 'mutants' with a superpower, encouraging them to enjoy their unique evolutionary advantage.
Takeaways
- 🥛 Milk is primarily produced by mammalian mammary glands to nourish young until they can digest other foods.
- 🍦 Milk is rich in nutrients like protein, calcium, potassium, and vitamin D, but also contains lactose, which many find hard to digest.
- 🧬 Humans naturally produce the lactase enzyme as infants to digest lactose, but typically stop producing it after childhood.
- 🌍 Approximately 70% of the world's population becomes lactose intolerant due to the reduced production of lactase post-childhood.
- 🧀 Neolithic farmers discovered ways to reduce lactose in milk by fermenting it into cheese and yogurt, making it more digestible.
- 🧬 A genetic mutation known as lactase persistence, linked to the LP allele, allowed some adults to continue producing lactase, enabling them to digest milk.
- 🗺️ This mutation likely originated in central Europe around 7,500 years ago and spread as groups migrated north and west.
- ❄️ The mutation was advantageous in colder climates where dairy products are stable and sunlight scarce, aiding in vitamin D synthesis.
- 🌡️ Lactase persistence varies by region; it's common in northern Europe but less so in the Mediterranean and some African and Asian populations.
- 🎉 If you can enjoy milk and dairy products without issue, you possess a special evolutionary trait that's not universal across all human populations.
Q & A
What is the primary purpose of milk in the context of mammalian biology?
-Milk is produced by mammalian mammary glands mainly to feed babies until they can digest other foods.
Why is lactose, a sugar found in milk, difficult for some people to digest?
-Lactose can be hard to digest because many people stop producing the lactose-digesting enzyme lactase after childhood.
What percentage of the world's population is lactose intolerant?
-About 70 percent of the world's population cannot produce lactase after childhood, indicating lactose intolerance.
How did ancient humans reduce the lactose concentration in milk before the lactase persistence mutation?
-Neolithic herders reduced lactose concentration in milk by fermenting it into cheese and yogurt.
What is the scientific name for the genetic mutation that allows some adults to continue producing lactase?
-The genetic mutation that allows some adults to continue producing lactase is known as the lactase persistence trait, carried by the LP allele.
When and where is the lactase persistence trait believed to have first appeared?
-The lactase persistence trait is believed to have first appeared about 7,500 years ago in central Europe.
Why might the lactase persistence trait have been advantageous in northern climates?
-In colder climates, dairy products store well and are handy where food may be scarce. Additionally, milk's vitamin D could be advantageous in areas with little winter sun.
What is the prevalence of lactase persistence among adults in Britain and Scandinavia?
-In Britain and Scandinavia, nearly 90 percent of adults can digest lactose due to lactase persistence.
How common is lactase persistence in populations near the Mediterranean?
-Probably less than 40 percent of people in Mediterranean regions have lactase persistence.
What is the message for those who can digest lactose, as mentioned in the script?
-If you can eat dairy products like ice cream without issues, enjoy that evolutionary perk that is not common to everyone.
Outlines
🥛 The Evolution of Lactase Persistence
This paragraph introduces the concept of lactose intolerance and the evolutionary advantage of lactase persistence. It explains that while milk is a nutritious food source, it contains lactose which can be difficult for many to digest past childhood. The script then delves into the history of milk consumption, starting with the domestication of animals around 11,000 years ago and the discovery of fermenting milk to reduce lactose levels. A key genetic mutation, the lactase persistence trait, is highlighted as the reason some adults can continue to digest lactose into adulthood, which is particularly prevalent in populations from northern Europe. The paragraph concludes by emphasizing the geographical variation in lactase persistence, with higher rates in regions like Britain and Scandinavia compared to the Mediterranean and some parts of Africa and Asia.
Mindmap
Keywords
💡Milk
💡Lactose
💡Lactase
💡Lactose Intolerance
💡Neolithic
💡Lactase Persistence
💡LP Allele
💡Fermentation
💡Mutant Farmers
💡Vitamin D
💡Evolutionary Perk
Highlights
Milk is produced by mammalian mammary glands mainly to feed babies.
Milk is full of protein, calcium, potassium, vitamin-D, but also lactose which can be hard to digest.
Baby mammals produce lactase to digest lactose, which is crucial for their survival.
Historically, lactase production would decrease after childhood, making milk consumption difficult.
About 70 percent of the world's population is lactose intolerant, experiencing discomfort after consuming milk.
Neolithic herders fermented milk to reduce lactose concentration, creating cheese and yogurt.
A genetic mutation known as lactase persistence trait allowed some adults to continue producing lactase.
The LP allele, responsible for lactase persistence, likely first appeared in central Europe around 7,500 years ago.
The lactase persistence trait spread with human migration, being advantageous in colder climates.
Dairy products are beneficial in regions with limited sunlight, providing necessary vitamin D.
The lactase persistence trait may have facilitated human migration and adaptation to new environments.
Lactase persistence varies widely, with high prevalence in Northern Europe and lower rates in the Mediterranean and parts of Africa and Asia.
The ability to consume milk and dairy without issue is an evolutionary advantage for some populations.
Milk has transitioned from a niche food to a staple, influenced by genetic mutations and human innovation.
The lactase persistence trait is an example of how human genetics can adapt to dietary changes.
The story of lactase persistence illustrates the interplay between genetics, environment, and cultural practices.
Transcripts
Have you ever found yourself, I don't know, thinking about the X-Men, secretly wishing
you were a mutant who could control the weather, or read minds, or teleport, or do something cool like that?
Let me ask you this, then: Do you drink and enjoy milk? How about ice cream? Can you do
that without getting ill?
Well then, congratulations, you are a mutant with a special superpower after all!
[INTRO]
Milk is produced by mammalian mammary glands, mainly to feed babies until they can digest
other foods.
Although milk is very nutritious -- full of protein, calcium, potassium, vitamin-D -- it's
also full of lactose, or milk sugar, which can be hard to digest.
Luckily, baby mammals, including human babies, produce tons of the lactose-digesting enzyme
lactase. If they didn't, they wouldn't be able to process their sole food source, and
they'd die.
Back in the day, when a child was four or five years old, their bodies started easing
off the production of lactase.
And by the time the kid was seven or eight years old, nursing or drinking another animal's
milk would have made him really sick.
If you or someone you know is lactose intolerant, you know what kind of miserable stomach-cramping
bathroom blowout awaits you if you dare succumb to a double-scoop of chocolate chip ice cream.
And those sufferers are actually in the majority -- about 70 percent of the world's population
cannot produce lactase after childhood.
And without lactase around to digest lactose, milk basically becomes toxic.
So what changed? How did milk go from being a weird food that only babies could appreciate
to a supermarket staple?
Two words: Mutant. Farmers.
Humans started to domesticate animals around 11,000 years ago in the Middle East. And traces
of milk fat have been discovered on artifacts in the Fertile Crescent going back about 8,500
years ago, and in central Europe, around 7,000 years ago.
The chemistry of these traces suggested that Neolithic herders had discovered a neat new
way to reduce the concentrations of lactose in milk -- by fermenting it. -- turning it
into cheese and yogurt.
But that only got them so far. They still could not drink the actual milk, be it goat,
or cow, or whatever.
And then, everything changed, when a unique genetic mutation popped up.
It's known as the lactase persistence trait, carried by what's called the LP allele, and
scientists think it first appeared about 7,500 years ago in central Europe.
That one little gene variant allowed its bearers to continue producing lactase into adulthood.
It probably spread as those Neolithic groups trekked north and west through Europe.
The allele did particularly well in the north, probably for several reasons. For one thing,
dairy products store well in colder climates, and they're extremely handy in places where
food may have been harder to come by, or grow.
And it may even be that milk's high concentrations of vitamin D provided a health advantage in
areas with little winter sun, since our bodies typically need sunlight to make vitamin D.
So the lactase persistence trait may have helped make this wave of human migration possible,
but still, it wasn't necessary everywhere. Today, in Britain and Scandinavia, nearly
90 percent of adults can chug all the milk they want, whereas down toward the Mediterranean,
probably less than 40 percent of people have lactase persistence. And in some populations
in Africa and Asia, it shows up in less than 10 percent.
So if you're one of the 30 percent of the world's mutants who can eat ice cream with
impunity, enjoy that evolutionary perk for everybody else!
Thanks for watching this SciShow Dose -- especially to our Subbable subscribers. To learn how
YOU can help us keep sharing delicious science like this, just go to subbable.com. And don't
forget to go to YouTube.com/scishow and subscribe!
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