All cats around the world share the same common ancestor from ~10.8 million of years ago. The progressive evolution of the common ancestor eventually led to the development of 37 modern cat species (Figure 1). According to ancient feline DNA analysis, the most recent wild ancestor of domestic cats in particular seems to be the African wildcat (lat. Felis silvestris lybica) (Ottoni et al, 2017).
However, as the evolution progressed bringing cats from the jungles into our homes, some domestic kittens inherited more or less DNA from particular wild relatives. The Basepaws Wild Cat Index now offers you a way to see if your furry companion has more
DNA in common with different wild cats in comparison to other domestic cats.
Figure 1: The Cat Family Tree (O’Brien & Johnson, 2007)
How does Basepaws calculate the Wild Cat Index?
After we sequences your cat’s DNA, we compare your cat’s genome to other cats from our database, big and small. For all the thousands of locations along your cat’s DNA that can be similar or different in wild and domestic cats, we record how many similarities
your cat shares with different wild cats. According to this value we get from the comparative analysis, we rank all Basepaws cats according to similarity to wild relatives. The Wild Cat Index is a percentage value (for each wild cat) that tells you
how your cat ranks in similarity to the wild relatives against other Basepaws cats. Note: The value from your cat’s report may change in later versions of the report as our database continues to grow. For a more detailed insight into
the process of your cat’s DNA analysis, please read Behind The Scenes at Basepaws.
How do I interpret the Wild Cat Index?
Wild cats that have been compared to your cat are listed in order of best match. If the percentage is higher than 50%, then your cat shares more DNA with this wild cat in comparison to the average domestic cats. If the percentage is less than 50%, then
your cat shares less DNA with this wild cat than average domestic cats. Please remember: Your cat’s highest match is based on ranking and should not be interpreted as your cat’s most recent wild ancestor. For more about cat ancestry, please visit this blog.
Reasons for high percentage rankings:
High-ranking cats are a more closely related to a particular wild cat than the low-ranking cats. For instance, on average, house cats and lions share ~95.6% of their DNA. On an individual basis, all house cats should have values pretty close to this value,
with some variations. While some cats might inherit more DNA in common with lions, others will inherit less. This genetic similarity is a result of a random chance of inheritance. A kitten inherits half of its DNA from each parent, but the halves
it receives are random combinations of their DNA. Because of this randomness, one ancestor will pass on more or less of their DNA than other ancestors to the offspring.
Sometimes, cats of different species cross and create hybrid kittens (i.e. Savannah cats, Bengals). An exceptionally high match could indicate that one of your cat’s recent ancestors was truly a wild cat or a hybrid cat. For instance, cats of the Savannah
breed should have very high rankings in the Wild Cat Index for Servals, as this wild cat is one of their recent ancestors. Please remember: We currently cannot distinguish if a high match resulted from the random chance of inheritance or the hybrid ancestry.
Which cats does the Wild Cat Index includes?
The Basepaws Wild Cat Index currently includes the following wild cats:
1. Asiatic golden cat
3. Clouded leopard
4. Eurasian lynx
5. Fishing cat
6. Flat-headed cat
8. Leopard cat
11. Pallas’s cat
13. Rusty-spotted cat
14. Scimitar-toothed cat
16. Snow leopard
The Basepaws Wild Cat Index is a unique genetic test that compares your cat’s DNA sequence to different wild cats. This part of our report tells you which wild cats your cat is most related to in comparison to other house cats. Is your cat more related
to a Jaguar or a Lion than other cats? Take the opportunity to find out and order your Basepaws CatKit today!
1. Ottoni, C et al. (2017). The palaeogenetics of cat dispersal in the ancient world. Nature Ecology & Evolution 1.
2. O’Brien S. J. & Johnson W. E. (2007). The Evolution of Cats. Scientific American. p. 68-75.