Beyond Restoration
Research: Bacteria Preserved on 1,000-Year-Old Plaque
By Denise Prichard on February 25, 2014 | 0 comments[caption id="attachment_31506" align="alignleft" width="340" caption="Fossilized dental plaque (calculus) on the teeth of a middle-aged man from the Medieval site of Dalheim, Germany, ca. AD 1100. Photo credit: Christina Warinner."][/caption]
According to a news release, a research team recently discovered 1,000-year-old dental calculus preserved on the teeth of skeletons. This discovery suggests that the human oral cavity is capable of retaining bacteria and food particles for extensive amounts of time, creating a pocket for microbiomes to thrive. The research was published in Nature Genetics.
Led by the University of Zurich, University of Copenhagen and University of York, the contributions of the 32 scientists involved found that despite the changes in our diet and hygiene over time, periodontal disease is caused by the same bacteria today as it was in the past.
This information allowed the researchers to conclude that calculus slowly grows on the teeth and when it comes into contact with soil during burial, the preservation of the biomolecules rapidly stabilizes. This led the research team to investigate the DNA aside from the soil by applying shotgun DNA sequencing to the calculus which allowed the team to recover copious amounts of information.
This groundbreaking research may be the first evidentiary finding that calculus preserves an astonishing amount of biomolecules, which is directly related to the origins of periodontal disease. The amount of information retrieved from one tiny sample will allow researchers to investigate human health, the origins of disease and the evolution of the human oral microbiome more accurately than ever before.
Since periodontal disease affects a significant amount of the world's population, this discovery could be a huge break in investigating other systemic diseases such as cardiovascular disease, diabetes, stroke, pulmonary disease and more.