Decoded DNA Reveals Details Of Black Death Germ | KALW

Decoded DNA Reveals Details Of Black Death Germ

Oct 12, 2011
Originally published on October 13, 2011 11:04 am

Scientists have used DNA lurking inside the teeth of medieval Black Death victims to figure out the entire genetic code of the deadly bacterium that swept across Europe more than 600 years ago, killing an estimated half of the population.

The researchers didn't find any genetic feature that could explain why the plague was so virulent, according to a report just published in the journal Nature.

"There is no smoking gun, so to speak, to say, 'Aha, we've found the one mutation which caused this tremendous virulence and now we know why it killed 50 million people.' We don't see that," says biological anthropologist Hendrik Poinar of McMaster University in Hamilton, Canada, who was on the research team.

He says the most likely explanation for the plague's devastation is that this rodent-infecting bacterium changed and struck humans for the first time right when the population of Europe was dealing with a cooling climate, poor crop production and filthy, crowded conditions.

Plus, people back then had no access to modern antibiotics and were likely weakened by other infections as well.

Poinar says the ancient Black Death DNA looks so similar to Yersinia pestis that still infects people today that researchers believe the medieval strain must be the ancestor of all modern strains.

That suggests this particular disease probably wasn't around centuries earlier and couldn't have caused the Plague of Justinian, another famous epidemic that devastated the Eastern Roman Empire in 541-542.

"More likely is that it was caused by another pathogen altogether that we haven't really considered yet," says Poinar.

In the past, other research groups have produced conflicting results when they've tried to detect Black Death bacteria in skeletal remains using less sensitive genetic tools. Some experts have argued that the famous plague might have been caused by a different disease, such as an Ebola-like virus.

This study used a newer, more robust genetic technique to fish out small bits of the ancient DNA from the dried powdery pulp hidden inside teeth taken from a Black Death cemetery in London.

"This is really the first ancient complete genome from skeletonized remains," says Poinar, who notes that scientists have sequenced the genes of the deadly 1918 flu virus, but that was from preserved tissue samples.

The Natural History Museum of Denmark's Thomas Gilbert is one of the scientists who tried to find plague DNA in Black Death victims in the past without success. He says the new technique used in this study is exciting and the analysis is compelling. "It's a great result. It looks very, very convincing," Gilbert says. "There's no reason why the data shouldn't be real."

But even if this has firmly established that plague bacteria caused the Black Death, Gilbert thinks the calculations that rule out its presence during the Justinian plague are open to question.

"I'm not completely convinced by that," says Gilbert. "The only way to find out what caused the Justinian plague is to do the same analysis on the Justinian samples, and I guess that's going to be the next attempt."

He says other groups have been working to use this same technique to probe for other diseases of historical interest. "What was unique about this paper is that they basically finished first and they did it on plague," says Gilbert. "But I know for example, people are doing it on tuberculosis, and people are doing it on all sorts of other things."

He says the insights that come from these studies will be of interest not only from a historical perspective, but also to help scientists understand how deadly epidemics have emerged in the past so that they can get ready for what might come in the future.

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It was more than 600 years ago that the Black Death swept across Europe. Over some five years, millions of people died from the plague, wiping out at least a third of the population. Scientists have long wondered what pathogen caused this deadly outbreak and why it was so virulent. NPR's Nell Greenfieldboyce reports that researchers are now finding the answers to these questions hidden in the DNA of the plague's victims.

NELL GREENFIELDBOYCE, BYLINE: In 1348, after the Black Death reached London, bodies got piled in special cemeteries. Scientists later collected some of the skeletal remains, including teeth. Hendrik Poinar is a biological anthropologist at McMaster University in Canada. He explains that these teeth are like time capsules.

HENDRIK POINAR: Teeth are a great sort of conservator of material because the enamel is such a great protective coating.

GREENFIELDBOYCE: Inside there's the remains of blood and pulp and DNA.

POINAR: That extract that comes from these teeth and these bones that have been buried in these burial pits for roughly 700 years are a mixture, a complex mixture of the DNA of the human, the DNA of the pathogens that that human harbored, the DNA of any bacteria that were symbiotic to the human.

GREENFIELDBOYCE: So it's no easy task to find the DNA from the Black Death pathogen. Most experts blame the plague bacteria Yersinia Pestis, which is still around today. But previous attempts to find its DNA in victim's teeth have had mixed results. In this latest study, researchers used a new and very sensitive technique. Poinar says they took bits of modern plague DNA and used them as a kind of magnet to pull ancient plague DNA out of the tooth extract.

POINAR: And that's the way we actually could fish for a needle in the haystack, so to speak.

GREENFIELDBOYCE: In the journal Nature, he and his colleagues report that not only did they detect DNA from the Black Death bacteria; they figured out its entire genetic code.

POINAR: Really, this is the first ancient pathogen genome isolated from skeletonized remains.

GREENFIELDBOYCE: Poinar says it's very similar to modern strains of plague and looks like their common ancestor.

POINAR: So there is no smoking gun, so to speak, to say, a-ha, we've found the one mutation which caused this tremendous virulence and now we know why it killed fifty million people.

GREENFIELDBOYCE: He says it probably wasn't the make-up of the germ that made it so deadly, but rather the fact that it emerged for the first time right when Europe was dealing with a cooling climate, poor crops, and crowded, filthy conditions.

The new study has impressed Thomas Gilbert of the Natural History Museum of Denmark, who's tried to get plague DNA out of victims' teeth in the past.

THOMAS GILBERT: I mean it's great results. It looks very, very convincing. There's no reason why the data shouldn't be real.

GREENFIELDBOYCE: Gilbert does question the report's conclusion that the medieval Black Death was the first time plague infected humans. If so, it couldn't have caused the Justinian Plague. That's another famous epidemic blamed on this bacteria that devastated the Eastern Roman Empire in the 6th century.

GILBERT: But really, you know, the only way to find out what caused the Justinian Plague is to do the same analyses on the Justinian samples. And I guess that's going to be the next attempt.

GREENFIELDBOYCE: And he says besides looking at plague, other researchers have already started to use these same new genetic techniques to unravel the history of other important diseases, like tuberculosis.

Nell Greenfieldboyce. NPR News. Transcript provided by NPR, Copyright NPR.