New research reveals a dog’s behavior is all down to this

By Stephen Beech via SWNS

A dog’s behavior really is all down to their genes, according to a new study.

Now researchers finally believe they know why sheepdogs herd after 30 years of trying to understand the genetics.

By analyzing DNA samples from more than 200 dog breeds along with over 45,000 pet-owner surveys, the American team has pinpointed many of the genes associated with the behaviors of specific dog breeds.

Study senior author Dr. Elaine Ostrander said: “The largest, most successful genetic experiment that humans have ever done is the creation of 350 dog breeds.

“We needed dogs to herd, we needed them to guard, we needed them to help us hunt, and our survival was intimately dependent on that.”

First author Dr. Emily Dutrow said: “Identification of the genes behind dog behavior has historically been challenging.

"The inherent complexity of canine population dynamics features varying degrees of selective pressure for aesthetic and morphological traits, some of which may be linked to behavioral traits, so pinpointing the genetics of canine behavior can be complicated.”

Kennel clubs generally categorize dog breeds on the basis of the jobs they are best suited for.

To find the genetic drivers of the behavioral tendencies that make dogs good at specific tasks, the researchers gathered whole-genome data from more than 4,000 purebred, mixed-breed, and semi-feral dogs, as well as wild canines.

By applying computational tools originally developed for studying single cells rather than whole organisms, Dutrow and colleagues identified 10 major genetic lineages among hundreds of dog breeds, solely on the basis of DNA data.

The research team found that each lineage corresponded to a specific category of breeds historically used for tasks such as hunting by scent compared to sight or herding or protecting livestock, indicating that common sets of genes were responsible for behaviors among dog breeds well suited for similar tasks.

To understand the nature of the behaviors, the team turned to individual dog experts, pet owners themselves.

Using 46,000 behavioral assessment surveys sent to owners of purebred dogs, the researchers identified "unique" sets of behavioral tendencies among the 10 lineages of dogs.

For example, behaviors associated with increased prey drive were associated with the terrier lineage, which contains breeds historically used for catching and killing prey.

Dutrow, a postdoctoral fellow at the National Human Genome Research Institute, said: “Having established significant behavioral tendencies correlated with the major canine lineages, we then identified genetic drivers of these behaviours by performing a genome-wide association study on the DNA samples.

“We were particularly interested in livestock-herding dogs, who display one of the most easily defined breed-typical behaviors, characterized by an instinctive herding drive coupled with unique motor patterns that move herds in complex ways.”

The researchers’ search led them to specific genes involved in brain wiring in herding dogs.

They found that variants near genes involved in 'axon guidance' - a process that shapes brain circuitry - appeared highly enriched.

The team also saw an enrichment for genes important for development of areas of the brain involved in social cognition and learned fear responses.

Ostrander, founder of the Dog Genome Project at the National Human Genome Research Institute, said: “When you get a certain input or stimulus, the degree to which that creates a reaction in different parts of the brain shapes how we behave.

“So, if nerves within and between brain regions don’t communicate in specific ways, then the behavior doesn't happen, and this is where axon-guidance genes come in to play.”

She said genetic variants associated with sheep dogs are often located near genes involved in "ephrin signaling" - an axon-guidance process that is involved in brain development and is implicated in behavior in other species, including humans.

For example, the sheep-dog-associated gene EPHA5 has also been associated with human ADHD and anxiety-like behaviors in other mammals.

The researchers said their findings, published in the journal Cell, could help us understand the high energy requirement of sheep dogs and their hyper focus when given a task.

Dutrow said: "The same pathways involved in human neurodiversity are implicated in behavioral differences among dog lineages, indicating that the same genetic toolkit may be used in humans and dogs alike."

Ostrander added: “Emily’s methodology allowed her to capture the different histories of dog breeding across the world, in one approach, one experiment, and without prior assumptions.

“After 30 years of trying to understand the genetics of why herding dogs herd, we’re finally beginning to unravel the mystery.”