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| Variety of dogs' coats explained | Variety of dogs' coats explained |
| (3 days later) | |
| Wiry, smooth, curly or straight - the genetic reason for the array of coats of different dog breeds is surprisingly simple, say scientists. | |
| Just three genes account for the coat types that make canine pets so diverse. A team of researchers reports in the journal Science that different combinations of these genes account for all of the various textures. | Just three genes account for the coat types that make canine pets so diverse. A team of researchers reports in the journal Science that different combinations of these genes account for all of the various textures. |
| The research could aid the study of the causes of genetic diseases that affect both dogs and humans. | The research could aid the study of the causes of genetic diseases that affect both dogs and humans. |
| The team was led by Elaine Ostrander from the National Human Genome Research Institute (NHGRI) in Bethesda, US. | The team was led by Elaine Ostrander from the National Human Genome Research Institute (NHGRI) in Bethesda, US. |
| She and her colleagues took DNA samples from 1,000 dogs of more than 80 different breeds as well as from a number of wild dogs, including wolves. | She and her colleagues took DNA samples from 1,000 dogs of more than 80 different breeds as well as from a number of wild dogs, including wolves. |
| These samples gave the scientists access to each dog's genome, which they were able to analyse. They looked for "signposts" of DNA variation, called single nucleotide polymorphisms. | These samples gave the scientists access to each dog's genome, which they were able to analyse. They looked for "signposts" of DNA variation, called single nucleotide polymorphisms. |
| By mixing and matching... these three different genes, we could account for most of the variation that we see in coats in domestic dogs Elaine Ostrander, NHGRI | By mixing and matching... these three different genes, we could account for most of the variation that we see in coats in domestic dogs Elaine Ostrander, NHGRI |
| These signal a mutation or change in the DNA code that could account for a particular characteristic. | These signal a mutation or change in the DNA code that could account for a particular characteristic. |
| Edouard Cadieu, a member of Dr Ostrander's research team decided to use this genetic data to study the dogs' coats. | Edouard Cadieu, a member of Dr Ostrander's research team decided to use this genetic data to study the dogs' coats. |
| "There are lots of obvious differences between dog breeds," said Dr Ostrander, "but the coats are just remarkable. | "There are lots of obvious differences between dog breeds," said Dr Ostrander, "but the coats are just remarkable. |
| "It seems that every breed has a different coat. Some are long, some are short, some are curly, some are bristly, some are smooth, and there is every possible mixture therein." | "It seems that every breed has a different coat. Some are long, some are short, some are curly, some are bristly, some are smooth, and there is every possible mixture therein." |
| Dr Cadieu searched for patterns that might reveal the genetic cause of this variety. | Dr Cadieu searched for patterns that might reveal the genetic cause of this variety. |
| Dr Ostrander explained: "For example, for long hair he looked for a commonality in long-haired breeds that's distinct from what we see in short-haired breeds. | Dr Ostrander explained: "For example, for long hair he looked for a commonality in long-haired breeds that's distinct from what we see in short-haired breeds. |
| "Edouard started out looking at texture - or wiry hair - and quickly found that there was a single gene primarily responsible for that, as well as (for) the moustache and eyebrow pattern that you see in dogs like the schnauzer." | "Edouard started out looking at texture - or wiry hair - and quickly found that there was a single gene primarily responsible for that, as well as (for) the moustache and eyebrow pattern that you see in dogs like the schnauzer." |
| He then moved on to length, and then to curliness. And for each characteristic he identified a single gene that was primarily responsible. | He then moved on to length, and then to curliness. And for each characteristic he identified a single gene that was primarily responsible. |
| Wild genes | Wild genes |
| In each case there was an ancestral or "wild-type" form of the gene that dogs inherited from wolves. | In each case there was an ancestral or "wild-type" form of the gene that dogs inherited from wolves. |
| There was also a variant or "domesticated form" that had been selected by breeders looking for particular traits like longer hair. | There was also a variant or "domesticated form" that had been selected by breeders looking for particular traits like longer hair. |
| Breeds with more wolf-like coats - such as those with short, straight hair like a beagle - displayed the wild-type version of the gene. | Breeds with more wolf-like coats - such as those with short, straight hair like a beagle - displayed the wild-type version of the gene. |
| Dogs with short, straight hair have a "wild-type" form of the gene | Dogs with short, straight hair have a "wild-type" form of the gene |
| "Just by mixing and matching... these three different genes, we could account for most of the variation that we see in coats in domestic dogs," said Dr Ostrander. | "Just by mixing and matching... these three different genes, we could account for most of the variation that we see in coats in domestic dogs," said Dr Ostrander. |
| The researchers say that the lessons learned from this study could help in the study of diseases that affect both humans and dogs. | The researchers say that the lessons learned from this study could help in the study of diseases that affect both humans and dogs. |
| Cathryn Mellersh, a geneticist from the Animal Health Trust in Suffolk, UK said: "This study is important because it proves a principle. | Cathryn Mellersh, a geneticist from the Animal Health Trust in Suffolk, UK said: "This study is important because it proves a principle. |
| "You can use the dog genome as a model to investigate complex conditions and boil them down to a surprisingly small number of genes." | "You can use the dog genome as a model to investigate complex conditions and boil them down to a surprisingly small number of genes." |
| Dr Ostander concluded: "From a medical point of view, this simplicity is great news." | Dr Ostander concluded: "From a medical point of view, this simplicity is great news." |
| It means, she said, that the problems of diseases with a genetic basis are "much more solvable". | It means, she said, that the problems of diseases with a genetic basis are "much more solvable". |
| Dr Ostander also expressed her thanks to all of the dog-owners who donated DNA samples from their pets. | Dr Ostander also expressed her thanks to all of the dog-owners who donated DNA samples from their pets. |
| "They've turned out to be extremely helpful, and this data set is just going to keep giving and giving." | "They've turned out to be extremely helpful, and this data set is just going to keep giving and giving." |
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