Using a common DNA ancestry test, President Obama would be 100% Caucasian.
Using a common DNA ancestry test, President Obama would be 100% Caucasian.

Sometimes genetic tests aren’t as useful as you think they will be. For example, if President Obama were to take a common ancestry DNA test, it would almost certainly come back as 100% Caucasian. Useful, huh?

This sort of test, a mitochondrial DNA (mtDNA) test, can look into the deep past but it can only see mom’s side of the family. And it isn’t even really that powerful. It not only ignores dad’s side of the family, but in reality it can only see a sliver of mom’s as well.

So with this test you can see your mom and her mom and her mom’s mom and so on. You can also see your mom’s sister and her kids and your grandma’s sister and her kids. What you won’t see, though, is your mom’s brother’s kids or your grandma’s brother’s kids or any male relative’s on your mom’s side of the family. It really only follows back a direct, specific maternal line.

This is why President Obama would look Caucasian in this test…because his mom is Caucasian. Now of course with a little knowledge about these sorts of tests, President Obama wouldn’t be surprised. But not everyone knows they have a relative on their direct maternal line who is of a different ethnic group.

I know of a case where a self-identified African-American woman had a mtDNA test done to try to determine what part of Africa her ancestors came from. Apparently they came from Europe; her test came back 100% Caucasian. This is despite the fact that all her living relatives were African-American and no one can remember any relatives who were Caucasian.

As this result shows, we don’t have to come up with an explanation like President Obama’s—it doesn’t have to be that her mom was Caucasian. Because of how these tests work, the DNA from this test could have come from a woman five, ten or even fifty generations back. Mitochondrial DNA passes from mother to child virtually unchanged, generation after generation.

What this means is that there is no dilution of mtDNA as the generations pass. Mom’s mtDNA is pretty much the same as grandma’s which is pretty much the same as great grandma’s and so on. This DNA doesn’t dilute over time.

Here is one way to show what might have happened to this woman’s DNA over the generations:

mtDNAft3

In the diagram, circles are women and squares are men. Also, white means Caucasian and black means African.

On the left, we are following the mtDNA of the tested woman and on the right we are following the rest of her DNA. She is the circle at the bottom of the family tree on each side.

What you can see on the right is that over the generations, the original Caucasian DNA is being diluted out. It goes from 50% to 25% to 12.5% and so on as you’d expect. The same isn’t true for the mtDNA on the left. It stays Caucasian generation after generation.

So if we look at most of her DNA, she looks African-American. We may not even see that sliver of Caucasian! But her mtDNA is 100% Caucasian. No wonder she was confused.

Obviously she can’t find out what part of Africa her ancestors came from with this test. But let’s say she got a more typical result and her mtDNA could be traced back to some part of Africa. What does that result really mean?

As the result here shows, it may not mean as much as she hopes. Imagine the previous scenario but instead of being Caucasian, the woman from five or ten generations ago came from a different part of Africa than the rest of her relatives. She would come away thinking her relatives were from one part of Africa when most of them were really from another.

She would not get the answer she was looking for but there is no way for her to know she got the “wrong” answer. She would simply go on believing she was from a part of Africa she really wasn’t.

Unfortunately, there really isn’t a better DNA test for looking back in time. The most useful tests, the autosomal ones that look at all our DNA, can only go back four or five generations before becoming hopelessly jumbled. For most African-Americans, this isn’t far enough back to find their African ancestors.

The other kind of test, the Y chromosome test, can go as far back along the paternal line as the mtDNA test can along the maternal line but it suffers from the same problems. In fact, a surprising number (35%?) of African-American men actually have Caucasian Y chromosomes (well, given plantation life, maybe not so surprising). None of these men will learn anything about their African heritage with this test.

So the bottom line is don’t put too much faith into DNA testing alone. It is kind of fun to trace back your history this way but you are really only following one strand of your ancestral web back in time. The rest of the web is invisible to DNA testing.

Of course mtDNA tests have been incredibly useful scientifically. They’ve let us trace human migration as we spread out of Africa and even trace all of our lines back to a single woman, Mitochondrial Eve. Recently these tests were even used to confirm that a skeleton found under a parking garage in England belonged to King Richard III.

Just don’t count on mtDNA tests giving you a broad understanding of your own family history. They won’t.

DNA Ancestry Tests: Simultaneously Powerful and Limited 20 September,2015Dr. Barry Starr

Author

Dr. Barry Starr

Dr. Barry Starr (@geneticsboy) is a Geneticist-in-Residence at The Tech Museum of Innovation in San Jose, CA and runs their Stanford at The Tech program. The program is part of an ongoing collaboration between the Stanford Department of Genetics and The Tech Museum of Innovation. Together these two partners created the Genetics: Technology with a Twist exhibition.

You can also see additional posts by Barry at KQED Science, and read his previous contributions to QUEST, a project dedicated to exploring the Science of Sustainability.

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