Scientists are starting to understand why one person's face can look so different from another's. Working on mice, researchers have identified thousands of small regions of DNA that influence the way facial features develop.
The study also shows that tweaks to genetic material can subtly alter face shape. The findings, published in Science, could also help researchers to learn how facial birth defects arise.
The researchers said that although the work was carried out on animals, the human face was likely to develop in the same way.
Professor Axel Visel, from the Joint Genome Institute at the Lawrence Berkeley National Laboratory in California, told BBC News: "We're trying to find out how these instructions for building the human face are embedded in human DNA.
"Somewhere in there there must be that blueprint that defines what our face looks like." The international team has found more than 4,000 "enhancers" in the mouse genome that appear to play a role in facial appearance.
These short stretches of DNA act like switches, turning genes on and off. And for 200 of these, the researchers have identified how and where they work in developing mice. Prof. Visel said: "In the mouse embryos we can see where exactly, as the face develops, this switch turns on the gene that it controls.
The scientists also looked at what happened when three of these genetic switches were removed from mice. "These mice looked pretty normal, but it is really hard for humans to see differences in the face of mice," explained Prof. Visel. "The way we can get around this is to use CT scans to study the shapes of the skulls of these mice. We take them and scan their heads. then we can measure the shape of the skull of these mice and we can do this in a very precise way."
By comparing the transgenic mice with unmodified mice, the researchers found that the changes were very subtle. However some mice developed longer or shorter skulls, while others have wider or narrower faces. "What this really tells us is that this particular switch also plays a role in development of the skull and can affect what exactly the skull looks like," he explained.