This Article is From Dec 24, 2018

Researchers Uncover Genetic Causes Of Eye Disease Through Blind Mice

According to researchers, many of these genes are likely important in human vision and the results could help identify new causes of hereditary blindness in patients.

Researchers Uncover Genetic Causes Of Eye Disease Through Blind Mice

The research team combed the consortium database for genes linked to eye and vision defects.

Highlights

  • Hundreds of new genes linked to blindness and other vision disorders
  • We expect that more and more of these genetic diseases will be treatable
  • We know the mutation is there but we don't know where to look

Hundreds of new genes linked to blindness and other vision disorders have been identified in a screen of mouse strains, according to new research by the University of California, Davis. According to researchers, many of these genes are likely important in human vision and the results could help identify new causes of hereditary blindness in patients. "This is extremely valuable for people with hereditary eye disease," said co-author Ala Moshiri, Associate Professor at the UC, Davis, School of Medicine and Eye Center.

"The whole ophthalmic community is going to start using these data," Moshiri added.

For the study, published in the journal, 'Nature Communications Biology', the research team combed the consortium database for genes linked to eye and vision defects.

They identified 347 genes, of which 86 were either well-established as involved in eye disease or were associated with vision in some way.

Three-quarters of the genes -- 261 -- were not previously known to cause eye disease in any species, according to the research team.

"In 2018, if someone has a form of hereditary blindness, we can identify the cause 50 to 75 per cent of the time," Moshiri said.

"In the remaining cases, we know the mutation is there but we don't know where to look. Now eye centres that do DNA sequencing can call back patients and screen them for these new genes," Moshiri added.

The team also said that the new genetic information could also enable new therapies for hereditary eye disease.

"We expect that more and more of these genetic diseases will be treatable," Moshiri noted.

 

 

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