Such is the case in Belgian Blue cattle (image below). These cattle have been selectively bred for many years since muscle mass in cattle often means more meat and money for breeders. For a long time, the more muscular bulls and cows were chosen for breeding, and this resulted in more muscular offspring. What breeders didn't necessarily understand, was that they were selecting mutations in the myostatin gene. This gene codes for the protein myostatin which inhibits muscle development. The mutated, shorter form of myostatin doesn't function properly, which results in more rapid muscle growth. This creates "double-muscled" offspring that, instead of having the normal amount of muscle fibers at birth, actually have twice as many muscle fibers. The myostatin mutation is considered a permanent muscle mutation within this cattle breed.
But myostatin has the same muscle-inhibiting function in other mammals. Mutations of myostatin have even been found in humans. Several cases of children born with these mutations have been documented, but have only recently been understood (image of boy with a myostatin mutation below). Additionally, myostatin mutations have been induced in mice to create "mighty mice" by Se-Jin Lee and colleagues at Johns Hopkins. Below, there is an image of a normal, wild-type mouse that lacks any myostatin mutation and a mouse with mutated myostatin. You can clearly see that the mutated mouse has much more muscle mass than the normal mouse. The discovery of myostatin mutations and their effect on increased muscle mass has practical applications. These mutations are currently being studied to potentially help people with muscular dystrophies (conditions with weakening muscles).
Link to primary article about Myostatin mutation:
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