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Oona

Cockapoo

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“Oona is a 3rd generation cockapoo. Blue Merle Parti coloring”

Place of Birth

Lake Stevens, WA, USA

Current Location

Puyallup, WA, USA

From

Lake Stevens, WA, USA

This dog has been viewed and been given 7 wags

Genetic Breed Result

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Cocker Spaniel

Cocker Spaniels are handsome and intelligent hunting dogs that are also well-suited to life as a loving family pet.

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Poodle (Small)

A highly intelligent and playful dog, Miniature and Toy Poodles make for great lap dogs and companions.

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Genetic Stats

Predicted Adult Weight

26 lbs

Genetic Age
35 human years

Based on the date of birth provided

DNA Breed Origins

Breed colors:
Cocker Spaniel
Poodle (Small)

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Health Summary

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Oona has one variant that you should let your vet know about.

ALT Activity

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Oona inherited one copy of the variant we tested

Why is this important to your vet?

Oona has one copy of a variant associated with reduced ALT activity as measured on veterinary blood chemistry panels. Please inform your veterinarian that Oona has this genotype, as ALT is often used as an indicator of liver health and Oona is likely to have a lower than average resting ALT activity. As such, an increase in Oona’s ALT activity could be evidence of liver damage, even if it is within normal limits by standard ALT reference ranges.

What is ALT Activity?

Alanine aminotransferase (ALT) is a clinical tool that can be used by veterinarians to better monitor liver health. This result is not associated with liver disease. ALT is one of several values veterinarians measure on routine blood work to evaluate the liver. It is a naturally occurring enzyme located in liver cells that helps break down protein. When the liver is damaged or inflamed, ALT is released into the bloodstream.

Breed-Relevant Genetic Conditions

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Von Willebrand Disease Type I, Type I vWD (VWF)

Identified in Small Poodles

Progressive Retinal Atrophy, prcd (PRCD Exon 1)

Identified in Cocker Spaniels and Small Poodles

Familial Nephropathy (COL4A4 Exon 3, Cocker Spaniel Variant)

Identified in Cocker Spaniels

Glycogen storage disease Type VII, Phosphofructokinase Deficiency, PFK Deficiency (PFKM, Whippet and English Springer Spaniel Variant)

Identified in Cocker Spaniels

GM2 Gangliosidosis (HEXB, Poodle Variant)

Identified in Small Poodles

Neonatal Encephalopathy with Seizures, NEWS (ATF2)

Identified in Small Poodles

Acral Mutilation Syndrome (GDNF-AS, Spaniel and Pointer Variant)

Identified in Cocker Spaniels

Exercise-Induced Collapse, EIC (DNM1)

Identified in Cocker Spaniels

Osteochondrodysplasia (SLC13A1, Poodle Variant)

Identified in Small Poodles

Intervertebral Disc Disease (Type I) (FGF4 retrogene - CFA12)

Identified in Cocker Spaniels and Small Poodles

Additional Genetic Conditions

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

Coat Color

Coat Color

E Locus (MC1R)
No dark mask or grizzle (Ee)
K Locus (CBD103)
More likely to have a mostly solid black or brown coat (KBKB)
Intensity Loci LINKAGE
No impact on coat pattern (Intense Red Pigmentation)
A Locus (ASIP)
Not expressed (atat)
D Locus (MLPH)
Dark areas of hair and skin are not lightened (DD)
B Locus (TYRP1)
Black or gray hair and skin (BB)
Saddle Tan (RALY)
Not expressed (NI)
S Locus (MITF)
Likely flash, parti, piebald, or extreme white (spsp)
M Locus (PMEL)
One merle allele; may express merle (M*m)
H Locus (Harlequin)
No harlequin alleles (hh)
Other Coat Traits

Other Coat Traits

Furnishings (RSPO2) LINKAGE
Likely furnished (mustache, beard, and/or eyebrows) (FF)
Coat Length (FGF5)
Likely long coat (TT)
Shedding (MC5R)
Likely light shedding (CT)
Hairlessness (FOXI3) LINKAGE
Very unlikely to be hairless (NN)
Hairlessness (SGK3)
Very unlikely to be hairless (NN)
Oculocutaneous Albinism Type 2 (SLC45A2) LINKAGE
Likely not albino (NN)
Coat Texture (KRT71)
Likely wavy coat (CT)
Other Body Features

Other Body Features

Muzzle Length (BMP3)
Likely medium or long muzzle (CC)
Tail Length (T)
Likely normal-length tail (CC)
Hind Dewclaws (LMBR1)
Unlikely to have hind dew claws (CC)
Blue Eye Color (ALX4) LINKAGE
Less likely to have blue eyes (NN)
Back Muscling & Bulk, Large Breed (ACSL4)
Likely normal muscling (CC)
Body Size

Body Size

Body Size (IGF1)
Smaller (II)
Body Size (IGFR1)
Larger (GG)
Body Size (STC2)
Smaller (AA)
Body Size (GHR - E191K)
Larger (GG)
Body Size (GHR - P177L)
Larger (CC)
Performance

Performance

Altitude Adaptation (EPAS1)
Normal altitude tolerance (GG)
Appetite (POMC) LINKAGE
Normal food motivation (NN)
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Through Oona’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

A1e

Haplotype

A25

Map

A1e

Oona’s Haplogroup

This female lineage likely stems from some of the original Central Asian wolves that were domesticated into modern dogs starting about 15,000 years ago. It seemed to be a fairly rare dog line for most of dog history until the past 300 years, when the lineage seemed to “explode” out and spread quickly. What really separates this group from the pack is its presence in Alaskan village dogs and Samoyeds. It is possible that this was an indigenous lineage brought to the Americas from Siberia when people were first starting to make that trip themselves! We see this lineage pop up in overwhelming numbers of Irish Wolfhounds, and it also occurs frequently in popular large breeds like Bernese Mountain Dogs, Saint Bernards and Great Danes. Shetland Sheepdogs are also common members of this maternal line, and we see it a lot in Boxers, too. Though it may be all mixed up with European dogs thanks to recent breeding events, its origins in the Americas makes it a very exciting lineage for sure!

A25

Oona’s Haplotype

Part of the large A1e haplogroup, we have detected this haplotype in village dogs in Mexico. We also see it in Irish Wolfhounds, Great Pyrenees, Brittanys, and Labrador Retrievers.

Some other Embark dogs with this haplotype:

Irish Wolfhounds are a consistent carrier of A1e.

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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 Oona inherited from her mom and dad? Check out her breed breakdown.

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

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