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“Laney”
Laney the Great of Sugar Land DJ

Labrador Retriever

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Genetic Breed Result

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Labrador Retriever

The Labrador Retriever was bred for hunting and excelled in retrieving game after it was shot down. Known for its gentle disposition and loyalty, the Labrador Retriever has become a favorite of families and breeders alike.

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Changes to this dog’s profile
  • On 9/27/2017 changed name from "Laney the Great of Sugar Land " to "Laney the Great of Sugar Land"

Health Summary

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Good news!

Laney is not at increased risk for the genetic health conditions that Embark tests.

Breed-Relevant Genetic Conditions

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Canine Elliptocytosis (SPTB Exon 30)

Identified in Labrador Retrievers

Pyruvate Kinase Deficiency (PKLR Exon 7, Labrador Retriever Variant)

Identified in Labrador Retrievers

Progressive Retinal Atrophy, prcd (PRCD Exon 1)

Identified in Labrador Retrievers

Golden Retriever Progressive Retinal Atrophy 2, GR-PRA2 (TTC8)

Identified in Labrador Retrievers

Progressive Retinal Atrophy, crd4/cord1 (RPGRIP1)

Identified in Labrador Retrievers

Day Blindness (CNGA3 Exon 7, Labrador Retriever Variant)

Identified in Labrador Retrievers

Macular Corneal Dystrophy, MCD (CHST6)

Identified in Labrador Retrievers

Urate Kidney & Bladder Stones (SLC2A9)

Identified in Labrador Retrievers

Alexander Disease (GFAP)

Identified in Labrador Retrievers

Degenerative Myelopathy, DM (SOD1A)

Identified in Labrador Retrievers

Narcolepsy (HCRTR2 Intron 6, Labrador Retriever Variant)

Identified in Labrador Retrievers

Centronuclear Myopathy, CNM (PTPLA)

Identified in Labrador Retrievers

Exercise-Induced Collapse, EIC (DNM1)

Identified in Labrador Retrievers

X-Linked Myotubular Myopathy (MTM1, Labrador Retriever Variant)

Identified in Labrador Retrievers

Congenital Myasthenic Syndrome, CMS (COLQ, Labrador Retriever Variant)

Identified in Labrador Retrievers

Hereditary Nasal Parakeratosis, HNPK (SUV39H2)

Identified in Labrador Retrievers

Skeletal Dysplasia 2, SD2 (COL11A2, Labrador Retriever Variant)

Identified in Labrador Retrievers

Additional Genetic Conditions

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Traits

Explore the genetics behind your dog’s appearance and size.

Coat Color

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Other Coat Traits

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Through Laney’s mitochondrial DNA we can trace her mother’s ancestry back to where dogs and people first became friends. This map helps you visualize the routes that her ancestors took to your home. Their story is described below the map.

Haplogroup

A1a

Haplotype

A230

Map

A1a

Laney the Great of Sugar Land’s Haplogroup

A1a is the most common maternal lineage among Western dogs. This lineage traveled from the site of dog domestication in Central Asia to Europe along with an early dog expansion perhaps 10,000 years ago. It hung around in European village dogs for many millennia. Then, about 300 years ago, some of the prized females in the line were chosen as the founding dogs for several dog breeds. That set in motion a huge expansion of this lineage. It's now the maternal lineage of the overwhelming majority of Mastiffs, Labrador Retrievers and Gordon Setters. About half of Boxers and less than half of Shar-Pei dogs descend from the A1a line. It is also common across the world among village dogs, a legacy of European colonialism.

A230

Laney the Great of Sugar Land’s Haplotype

Part of the large A1a haplogroup, we have spotted this haplotype among village dogs in Peru. This haplotype does not occur in many breeds, but it occurs with high frequency in Labrador Retrievers and less frequently in Flat-Coated Retrievers and German Shepherd Dogs.

Shar Pei dogs think A1a is the coolest!

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The Paternal Haplotype reveals a dog’s deep ancestral lineage, stretching back thousands of years to the original domestication of dogs.

Are you looking for information on the breeds that Laney inherited from her mom and dad? Check out her breed breakdown and family tree.

Paternal Haplotype is determined by looking at a dog’s Y-chromosome—but not all dogs have Y-chromosomes!

Why can’t we show Paternal Haplotype results for female dogs?

All dogs have two sex chromosomes. Female dogs have two X-chromosomes (XX) and male dogs have one X-chromosome and one Y-chromosome (XY). When having offspring, female (XX) dogs always pass an X-chromosome to their puppy. Male (XY) dogs can pass either an X or a Y-chromosome—if the puppy receives an X-chromosome from its father then it will be a female (XX) puppy and if it receives a Y-chromosome then it will be a male (XY) puppy. As you can see, Y-chromosomes are passed down from a male dog only to its male offspring.

Since Laney is a female (XX) dog, she has no Y-chromosome for us to analyze and determine a paternal haplotype.

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