Leopards, cheetahs, Egyptian maus — a variety of cats have stunning spots. Others, like tigers, have stripes; still others, like lions, lack patterns on their coats. But how do cats get their spots, specifically?
Scientists don’t have a complete answer to this question, but they’ve uncovered many clues.
“We don’t know why some cats have spots and some cats have stripes,” Dr. Greg Barsh, a professor emeritus of genetics and pediatrics at Stanford University, told Live Science. But researchers have identified two genes that affect the size and shape of spots — as well as stripes — in both domestic cats and wild felines.
Domestic cats with one or two normal copies of a gene called Taqpep have stripes, Barsh and colleagues reported in a 2012 paper published in the journal Science. But according to this same paper, as Live Science previously reported, cats with mutations in both copies of this gene (one from their mother and one from their father) have fur that is blotched or whorled.
These Taqpep mutations give rise to the patterns of the classic tabby cat, Leslie Lyons, a cat geneticist at the University of Missouri College of Veterinary Medicine, told Live Science.
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Taqpep mutations can also modify spots — at least in cheetahs. Cheetahs are known for having black spots on a yellowish-tan background. But “king cheetahs” — which have mutations in both copies of the Taqpep gene, according to the 2012 Science paper — have large, blotchy spots. Along the spine, the blotches align themselves into stripes.
Although spotted domestic cats are obviously not striped, they appear to have a normal version of Taqpep, according to Eduardo Eizirik, a professor of genetics at the Pontifical Catholic University of Rio Grande do Sul in Porto Alegre, Brazil. As part of a study published in the journal Genetics in 2010, he mated a spotted domestic cat with a blotched one.
Eizirik and his colleagues concluded that the spotted cat he started with — an Egyptian mau — must have had a normal Taqpep gene, because some of its descendants had stripes. The team also surmised that one or more other genes in the spotted cat had the effect of breaking up the stripes that Taqpep would normally cause and turning them into spots. It’s still unclear what those other genes are, he said.
Another gene that seems to affect spotting is Dkk4, according to Barsh. The Abyssinian breed of domestic cat has one or two mutated copies of the Dkk4 gene. Its coat, at a glance, appears to be a solid brown or cinnamon color. Another way to view it, however, is as a coat peppered with tiny black spots, Barsh said.
Servals are wild felines with large spots, and they have two normal copies of Dkk4. Therefore, if you cross an Abyssinian cat with a serval, as has been done, some of the offspring inherit one normal copy and one mutant copy of Dkk4, Barsh explained. These offspring have spots that are larger and sparser than the peppered spots on the Abyssinian parent but smaller and more numerous than those of the serval parent.
“This is a very clear example of how the [Dkk4] gene can affect the number and the size of spots on the animal,” Barsh said.
Although mutations in Taqpep and Dkk4 can modify spots and stripes, these genes do not by themselves control whether cats have spots or stripes in the first place. A tiger with a normal Taqpep gene has stripes, while a cheetah with a normal Taqpep gene has spots, Barsh said. While mutations in Taqpep can make a cheetah’s spots become blotchy, the spots don’t turn into stripes.
And as Eizirik’s work showed, domestic cats with a normal Taqpep gene can be either striped or spotted. “There must be something else yet, a third gene, that is helping to create those spots,” Lyons said.
