“Can a couple have a baby that is significantly darker or lighter than either individual?”
Can a couple have a baby that is significantly darker or lighter than either individual?
The short answer is, yes! A couple can have a baby with a skin color that isn’t between their own. The long answer, though, is much more interesting.
The long answer has to do with the parts of your DNA that give specific instructions for one small part of you. In other words, your genes.
It turns out that there isn’t just one or even a few genes involved in skin color. There are hundreds of different stretches of DNA all working together that decide your skin color.
Some of these genes can have big effects while others fine-tune a final color. On top of all that, your actions can help change how your body reads your DNA! For example, staying out in the sun turns on genes that darken your skin.
Because of how skin color genetics works, these two could be sisters.
Image from Wikimedia
Different Types of Genes Get Shuffled Around
Everyone has two copies of each gene, one from their mom and one from their dad. The copies are mostly the same.
Note the word mostly. If we all had the same DNA we’d all be identical twins!
Turns out that we are all unique because sometimes the copies of each gene are slightly different. Scientists call these slightly different genes alleles.
These genes and alleles are kind of like a deck of cards. Each gene is like a different card (ace, two, three… jack, queen, king). And, like cards that come in different suits (spades, clubs, diamonds, hearts), there's more than one version of each card.
Imagine your mom and dad give you one of each card from their own decks. You’ll get two jacks, but they might be of the same suit (two jacks of hearts) or different (one jack of hearts and one jack of spades). In genetics, the word for two of the same is homozygous, the word for one of each is heterozygous.
Now let’s pretend the black cards would lead to dark skin and the red cards would lead to light skin. If you have a dark dad (all clubs and spades) and a light mom (all hearts and diamonds) you will end up with one red card and one black card like this:
This mixed hand would give you medium toned skin.
If your partner has similar parents, then he or she will also end up with a mixed deck. Maybe something like this:
When you have a baby together, you and your partner will each give a random half of your cards to your baby.
Odds are the baby will get black and red cards. But it’s possible that your baby will get all red cards from both of you like this:
In this case, the baby would be much lighter than either of you.
The same logic applies to the black cards. If by chance your baby got mostly clubs and spades from you and your partner, then the baby would end up with much darker skin than either of you:
As you can see, if you have two babies, they might end up with very different decks! And so very different skin colors.
Some of these families answer your question: parents can have children with skin color that is significantly lighter or darker than their own.
Sometimes One Gene is Stronger than the Others
Sometimes a particular gene can have a much bigger effect than other genes. Scientists call this “different effect size.”
In the previous card example, we pretended that every card had the same value. Having a red queen had the same impact as a red two.
A more accurate game would be if each red number card had a different point value. A red queen would add a higher score than a red two. Some genes matter a lot and some just fine-tune the color.
To make the card game even more accurate, we can add one more rule: if you get two queens of hearts, you get an extra 1,000 points. Let’s see how that rule can impact things.
Imagine a slight variation on the two parents from before. In this case, your hand has one queen of hearts and your spouse’s hand has one queen of hearts like this:
You both have around the same skin color as before because neither of you get the bonus points for two queens of hearts. But there’s a chance your kid will end up with two queens of hearts like this:
Here, even though the child has the same number of black and red cards as either parent, the child is much, much lighter than either parent because of those two queens of hearts.
This may seem like a silly rule, but it’s actually how some genes work. In fact, it’s what happens for people with light skin and red hair.
There is a gene called MC1R that acts as an on switch for darker skin. Usually the sun is able to flick this switch and cause people to tan.
However, there is one version of this gene that doesn’t work. Like those two queens of hearts, if both of your copies of MC1R don’t work, you end up with way lighter skin. In other words, the non-working copies of MC1R have a bigger impact than the other skin color genes.
When you need two copies of an allele to see a trait, this is called recessive. It takes two nonworking (recessive) MC1R alleles to give way lighter skin (the trait).
It turns out this switch doesn’t just change skin color. Hair color is also affected!
The rest of the person’s genes are saying, “make the hair colored!” so the person isn’t going to be blonde. But the person can’t flick the switch for brown, so their hair turns out red!
Genes Are Important, But You Still Have Control
Your DNA contains all the information to make you. But that doesn’t mean it controls all of your future!
Genes, like MC1R, contain information about how a person will react to the sun. Some people will burn while others will tan and still others will get covered in freckles. But each person can control how much he or she goes out into the sun.
Genes control your reaction to the sun, but you control how much time you spend in it!
Image from Wikimedia
Someone who likes to spend time in the sun will probably be darker than their parents who spend all their time indoors. Yes, they’re only tanner, but they could be significantly darker than their parents!