More than meets the eye! Study identifies 50 new genes that play a role in iris coloration compared to the one or two previously said to determine different shades
- A study has identified 50 new genes involved in determine human eye color
- Researcher conducted the analysis with some 195,000 Europeans and Asians
- It was previously believed that only one or two genes were involved
- However, many of the new genes were not reported to determine eye color
A new study reveals human eye color is much more complex than previously believed.
A group of international scientists have identified 50 new genes that play a role in eye color following the genetic analysis of nearly 195,000 people in Europe and Asia.
It was previously said that shades were controlled by one or two genes, with brown eyes typically dominating blue.
The team also discovered 1,636 Asian participants with different shades of brown eyes had iris pigmentation variations similar to Europeans who have a wider range from dark brown to light blue.
‘Our study outcomes demonstrate that the genetic complexity of human eye color considerably exceeds previous knowledge and expectations, highlighting eye color as a genetically highly complex human trait,’ reads the study published in Science Advances.
A group of international scientists have identified 50 new genes that play a role in eye color following the genetic analysis of nearly 195,000 people in Europe and Asia. It was previously said that shades were controlled by one or two genes, with brown eyes typically dominating blue
The study, led by King’s College London and Erasmus University Medical Center Rotterdam, is deemed to be ‘the largest genetic study of its kind to date.’
Co-senior author Dr Manfred Kayser, Erasmus University Medical Center Rotterdam, said: ‘This study delivers the genetic knowledge needed to improve eye color prediction from DNA as already applied in anthropological and forensic studies, but with limited accuracy for the non-brown and non-blue eye colors.’
The 50 new genes had been previously identified, but were not classified as playing a role in eye color.
For example, the team found eight of the genes were reported for genetic associations with other pigment traits, such as hair and skin color.
These findings will help to improve the understanding of eye diseases such as pigmentary glaucoma and ocular albinism, where eye pigment levels play a role
‘Moreover, we also identified 34 genetic loci that were significantly associated with eye color, but for which there is no report of significant association with hair and/or skin color,’ researchers state.
These findings will help to improve the understanding of eye diseases such as pigmentary glaucoma and ocular albinism, where eye pigment levels play a role.
Co-senior author Dr Pirro Hysi, King’s, said: ‘The findings are exciting because they bring us to a step closer to understanding the genes that cause one of the most striking features of the human faces, which has mystified generations throughout our history.’
‘This will improve our understanding of many diseases that we know are associated with specific pigmentation levels.’
The color of our eyes has always been a mysterious wonder and is usually a surprise at birth.
However, new technologies are allowing humans to choose the shade of a babies eyes, along with other abilities and features.
A form of gene editing called CRISPR is already being used by scientists in China to alter disease-causing genetic mutations in human embryos.
And a study in 2018 revealed 39 percent of people would alter their unborn child’s DNA to select their eye color.