The team performed whole-genome sequencing using 2,234 Japanese participants. As its name suggest, the technique attempts to read the entirety of a genome--all three billion letters of it. Comparing the genomes of many individuals at once makes it possible to find regions that have changed more rapidly than others--in other words, places where evolution has caused a particular genetic trait to predominate.
Not all genome sequencing studies are created equal; however, with some doing a better job of reading genomes than others.
"Whole-genome sequencing is a common technique, but our analysis achieved exceptionally 'deep' sequencing," lead author Yukinori Okada explains. "This means that we collected significantly more information from each person's genome compared with similar studies. This allowed us to identify evolutionary changes that occurred over much more recent periods of time, on the scale of the last 2,000 to 3,000 years."
Previous studies looking at similar time scales have focused exclusively on European ancestry. In those studies, it was found that Europeans mostly experienced adaptations related to height, obesity, and the immune system. The current study supplements these findings by focusing on Japanese individuals--from an area where evolutionary pressures have had a distinct impact on adaptive traits.
"Our study is the largest high-depth sequencing study conducted to date on a non-European population," contributing author Saori Sakaue adds. "We found that very different evolutionary traits have evolved in Japanese populations over the last few thousand years, particularly traits involved in the metabolism of alcohol, glucose, and lipids. Given the clear evolutionary differences between European and Japanese populations, we expect our findings to shed light on how different ancestries can evolve divergent traits over very short periods of time."
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