Early deals are happening now. Get up to £50 off.

Shop now

Cone Degeneration (Discovered in the German Shorthaired Pointer)

Cone Degeneration (CD), also called "day-blindness" is an inherited eye disorder causing light-sensitivity (photophobia) and an inability to see in bright light.

Key Signs

Day-blindness, Photophobia

Age of Onset

0 to 2 yrs

Juvenile onset

Inheritance

Autosomal Recessive

For autosomal recessive disorders, dogs with two copies of the variant are at risk of developing the condition. Dogs with one copy of the variant are considered carriers and are usually not at risk of developing the disorder. However, carriers of some complex variants grouped in this category may be associated with a low risk of developing the disorder. Individuals with one or two copies may pass the disorder-associated variant to their puppies if bred.

Likelihood of the Condition

High likelihood

At risk dogs are highly likely to show signs of this disease in their lifetime.

What to Do

Here’s how to care for a dog with CD

Partner with your veterinarian to make a plan regarding your dog’s well-being, including any insights provided through genetic testing. If your pet is at risk or is showing signs of this disorder, then the first step is to speak with your veterinarian.

For Veterinarians

Here’s what a vet needs to know about CD

Clinical signs of CD occur at the age of 8 to 12 weeks. Affected pups show signs of day-blindness and photophobia due to the degeneration of cone cells in the retina. Cone cells are gradually lost and may be completely absent in an adult dog affected with CD. The degeneration does not affect rod cells, therefore vision in dim light remains normal; cone degeneration does not result in complete blindness.

Affected dogs may find exposure to bright light irritating or even painful, so exposure should be limited where possible. However, their vision at night and in dim lighting should remain intact.

For Breeders

Planning to breed a dog with this genetic variant?

There are many responsibilities to consider when breeding dogs. Regardless of test results it is important that your dog is in good general health and that you are in a position to care for the puppies if new responsible owners are not found. For first time or novice breeders, advice can be found at most kennel club websites.

This disease is autosomal recessive meaning that two copies of the mutation are needed for disease signs to be shown. A carrier dog with one copy of the CD mutation can be safely bred with a clear dog with no copies of the CD mutation. About half of the puppies will have one copy (carriers) and half will have no copies of the CD mutation. A dog with two copies of the CD mutation can be safely bred with a clear dog. The resulting puppies will all be carriers. Puppies in a litter which is expected to contain carriers should be tested prior to breeding. Carrier to carrier matings are not advised as the resulting litter may contain affected puppies. Please note: It is possible that disease signs similar to the ones caused by the CD mutation could develop due to a different genetic or clinical cause.

Technical Details

Gene CNGB3
Variant G>A
Chromosome 29
Coordinate 32,837,065

All coordinates reference CanFam3.1

We’ve spent the past 20+ years devoted to DNA. Our team of scientists and vets have spent decades developing the most accurate pet DNA test. Because every pet deserves to have their whole story told. We’ve collaborated with leading academic institutions, innovative research labs, and Banfield Pet Hospital™ to make our process exceptionally precise, fast, and affordable.

References & Credit

Credit to our scientific colleagues:

Sidjanin, D. J. (2002). Canine CNGB3 mutations establish cone degeneration as orthologous to the human achromatopsia locus ACHM3. Human Molecular Genetics. View the article

Yeh, C. Y., Goldstein, O., Kukekova, A. V., Holley, D., Knollinger, A. M., Huson, H. J., … Komáromy, A. M. (2013). Genomic deletion of CNGB3 is identical by descent in multiple canine breeds and causes achromatopsia. BMC Genetics, 14. View the article