Summary: People who look alike but are not related share similar DNA, a new study reports. The findings also suggest the shared genetic variations not only relate to similar physical appearance but also common habits and behaviors.
Source: Cell Press
A collection of photos of genetically unrelated look-alikes, along with DNA analysis, revealed that strong facial similarity is associated with shared genetic variants.
The work appears August 23 in the journal Cell Reports.
“Our study provides a rare insight into human likeness by showing that people with extreme look-alike faces share common genotypes, whereas they are discordant at the epigenome and microbiome levels,” says senior author Manel Esteller of the Josep Carreras Leukemia Research Institute in Barcelona, Spain. “Genomics clusters them together, and the rest sets them apart.”
The number of people identified online as virtual twins or doubles who are genetically unrelated has increased due to the expansion of the World Wide Web and the possibility of exchanging pictures of humans across the planet. In the new study, Esteller and his team set out to characterize, on a molecular level, random human beings that objectively share facial features.
To do so, they recruited human doubles from the photographic work of François Brunelle, a Canadian artist who has been obtaining worldwide pictures of look-alikes since 1999. They obtained headshot pictures of 32 look-alike couples. The researchers determined an objective measure of likeness for the pairs using three different facial recognition algorithms.
In addition, the participants completed a comprehensive biometric and lifestyle questionnaire and provided saliva DNA for multiomics analysis. “This unique set of samples has allowed us to study how genomics, epigenomics, and microbiomics can contribute to human resemblance,” Esteller says.
Overall, the results revealed that these individuals share similar genotypes, but differ in their DNA methylation and microbiome landscapes. Half of the look-alike pairs were clustered together by all three algorithms. Genetic analysis revealed that 9 of these 16 pairs clustered together, based on 19,277 common single-nucleotide polymorphisms.
Photographic examples of look-alikes used in this study. Credit: François Brunelle
Moreover, physical traits such as weight and height, as well as behavioral traits such as smoking and education, were correlated in look-alike pairs. Taken together, the results suggest that shared genetic variation not only relates to similar physical appearance, but may also influence common habits and behavior.
“We provided a unique insight into the molecular characteristics that potentially influence the construction of the human face,” Esteller says.
“We suggest that these same determinants correlate with both physical and behavioral attributes that constitute human beings.”
A few study limitations include the small sample size, the use of 2D black-and-white images, and the predominance of European participants. Despite these caveats, the findings may provide a molecular basis for future applications in various fields such as biomedicine, evolution, and forensics.
“These results will have future implications in forensic medicine—reconstructing the criminal’s face from DNA—and in genetic diagnosis—the photo of the patient’s face will already give you clues as to which genome he or she has,” Esteller says.
“Through collaborative efforts, the ultimate challenge would be to predict the human face structure based on the individual’s multiomics landscape.”
About this genetics research news
Author: Press Office
Source: Cell Press
Contact: Press Office – Cell Press
Image: The image is credited to François Brunelle
Original Research: Open access.
“Look-alike humans identified by facial recognition algorithms show genetic similarities” by François Brunelle et al. Cell Reports
Look-alike humans identified by facial recognition algorithms show genetic similarities
The human face is one of the most visible features of our unique identity as individuals. Interestingly, monozygotic twins share almost identical facial traits and the same DNA sequence but could exhibit differences in other biometrical parameters.
The expansion of the world wide web and the possibility to exchange pictures of humans across the planet has increased the number of people identified online as virtual twins or doubles that are not family related.
Herein, we have characterized in detail a set of “look-alike” humans, defined by facial recognition algorithms, for their multiomics landscape. We report that these individuals share similar genotypes and differ in their DNA methylation and microbiome landscape.
These results not only provide insights about the genetics that determine our face but also might have implications for the establishment of other human anthropometric properties and even personality characteristics.