Biology concepts – twins, genetic linkage, racial
phenotypes, skin pigmentation, single nucleotide polymorphism, random assortment, discordant race twins
A great story came out this past July about a twin Earth.
Well, almost. In looking for exoplanets, the holy grail is a planet that looks
a lot like Earth. It should have the possibility of liquid water, it should be
about the same size so that the gravity would be similar, and it should be
rocky, so people would have a place to stand.
 |
|
The movie Prometheus had a very twin-like planet
that apparently
had life on it that seeded
and reseeded Earth with life – then was
going to destroy it. This was
the prequel to the Alien movies. We
just found a close twin to
Earth, but there’s no indication of disco
balls there. And traveling
our fastest right now, it would take 25
million years to get there. Maybe
disco will be dead by then.
|
The planet is right on the edge of the habitable zone where liquid
water would be possible, and she is about 6 billion years old (Earth is 4.55
billion years old). Kepler-452b has an orbit time of 384 days. Everybody will be just
a bit younger, so now we have the women back on board. The star it orbits is of
the same type as our Sun (G2) and gives off about 10% more energy – tanning
will be easy. That’s about the best you’re going to do when looking for a twin
planet. Astronomers aren’t sure, but they suspect that it has a rocky core and
surface, so building shopping malls will be easy – thank goodness.
This is the best possibility science has found yet for a
planet that might harbor life that looks like us. It’s age means that it's had time to evolve life to a significant stage. And it could be a second
home to us if we keep destroying our world and we learn how to travel that far.
On the other hand, it could be a gas planet and have a toxic atmosphere so that
nothing like us could live there. Could there be twin species out there staring
at us through a big telescope?
This got me to thinking – how do you define twins?
Monozygotic is easy, they’re conceived at one time from one egg and one male
gamete. But what about dizygotic twins? They’re no more closely related as any two siblings,
so what makes them twins? Is it because they were conceived in one attempt? Is
it because they have the same mother and father? Is it because they are born at
the same time?
 |
|
There are 600 proteins used
to make and distribute melanin
in skin, hair and eyes. There
are at least 50 genes that control
skin pigmentation to some
degree. Each has many different
versions (alleles). A new forensics test can predict accurately
how dark a person’s skin is
just by testing any DNA
from the individual.
|
If one child is fair skinned, blue eyed, and straight haired
and another is brown skinned, brown eyed and woolly haired, can they possibly
be twins? The answer may surprise you.
Some of the heritable systems that control obvious “racial”
phenotypes like skin color or hair texture can be quite complex. Many genes
that contribute to the variability in skin pigmentation – there are over 600
proteins that work together in melanosome (see this post) production of the eumelanin that colors the skin brown.
One gene, solute
carrier family protein member 5 (SLC24A5) has a significant effect on whether a person will be light or dark skinned. Its gene has only two
known alleles, one confers dark skin and the other light. Dang near 100% of
northern European descent have the light skinned allele of SLC24A5.
But despite the strong contribution of this gene and a close
family member (SLC45A2), SLC24A5 accounts for only 30% of the
pigmentation difference between Western Africans and Northern Europeans, so
many other genes are also involved. One
such gene product is the melanocortin 1
receptor (MC1R). There are several variant alleles, some of which have no function and result in much lighter skin color.
 |
|
This chart is simplified
greatly, because we know now that
there are many genes that
control eye color. OCA2 controls
brown to some degree, the B=
brown, dominant allele. The
gey gene
works in blue and green coloring. If you have just
one B, your eyes will still
be brown.
|
The key is that different alleles for all the skin
pigmentation genes get passed on and it is the
combination of alleles in each male and female gamete that join which
determine the skin color of that individual.
Because so many genes with so many alleles all work
together to control skin coloration, most biracial kids turn out to be a shade
somewhere between mom and dad; the odds of getting a certain set of alleles to
look more like one than the other are low. But it does happen. Now add in the
chances of having twins (about 1 in 50 or so), and then multiply all this
together with the odds that both twins would receive a set of alleles to code
for a very dark skin pigmentation and that the other twin would get a complete
set for very light skin.
 |
|
Here are Lucy and Maria
Alymer (left) and Lauren and
Hayleigh Spooner-Durant. They
are sets of dizygotic twins.
Makes you ponder the genetic
linkage of hair texture and hair,
skin and eye color. It also
makes you wonder if it might be X
linked, all the sets I have
seen are girl/girl.
|
Northern Europeans have several possible eye colors – blue,
brown, green, hazel, while people of African descent almost always show dark
brown irises. The alleles for variant eye color (like skin) have evolved only
recently and are recessive. The dominant alleles are those for dark skin and
dark eyes.
Then there are the genes that control hair texture. By in
large, the shape of the hair follicle regulates the coil of the hair. The
flatter the follicle, the tighter the coil of the hair. On the other hand, the
diameter of the follicle determines how thick the hair is. Africans universally have tight coil and
thick hairs. They make enough oils but it's hard to coat all the way down the hair shaft due to the
coils.
With random
assortment in the production of male and female gamete cells (see this post), the chances are high that two eggs or two male gametes will have different
alleles for skin color, hair texture, and eye color. In biracial couples, the
chances are high that since these phenotypes are controlled by several genes
each, the combination of alleles will leave a child somewhere in the middle for each trait. But something called genetic
linkage can skew the chances of some combinations of traits showing up
together.
 |
|
This is Kian and Remee
Hogdson. They are from the UK, just
like the two sets above. Will
more interacial couples and
babies strengthen the species
by increasing diversity, or would
reproductive isolation like
most often happens (you marry
someone who looks like
yourself) allow for divergence and the
ability of one group to have
the best chance of surviving some
evolutionary catastrophe? I
don’t know.
|
What I wonder about is the linkage between skin pigmentation
and hair texture. People of African
descent almost universally have tightly curled, ie. woolly, hair. Why are the
dark skin and the woolly haired so strongly associated with one another? If the
genes are located close to on another on the same chromosome or if one gene
affects the other, then they might be inherited as a package – this is the
essence of genetic linkage. The closer two genes are on a chromosome, the more
likely that those alleles will always show up together.
There’s no evidence (yet) that hair texture and skin color
genes are linked to one another; in fact, the many genes involved in these
traits makes linkage less likely. But don’t tell that to Kian and Remee Hodgson.
Despite the long odds (maybe one in 2 million), there have been several cases
of discordant race twins recently, mostly in the UK (see pictures above). Lucy and Maria Alymer, as
well as Lauren and Hayleigh Spooner-Durant. Looking at their pictures, it sure seems that these traits are inherited
as a package.
 |
|
There is no absolute when it
comes to phenotypes and race.
There are blue-eyed Africans,
and Europeans with kinky hair
(ask your parents who Bob
Ross was, with his happy little trees).
It goes the other way as
well, some Africans can have
straight or wavy hair.
|
If these exceptions weren’t weird enough, how about some
exceptions to the sets of traits? Woolly
hair syndrome is what it's called when fair skinned people have tightly
coiled hair like people of African descent. There are blue-eyed Africans – usually from a
spontaneous mutation in the OCA2 gene, or from a disease like Waardenburg syndrome,
or perhaps they have Caucasian ancestors on
both sides of the family (because blue eyes are recessive). There are also
African tribes with high percentages of people with straight or wavy hair.
Just remember, we’re all in this together and we’re all
playing with the same genes. It’s just the combination of alleles you get that
will tell the tale. With the advent of more interracial couples, we are moving toward a time
when all alleles will be equally possible in all people. This won’t mean
everyone will be the same color, just that more shades of pigmentation will be
possible in each baby.
Next week we take on another possible definition of twinning
– are all twin babies born at the same time?
No comments:
Post a Comment