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Booth Rubin

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Genetic Stats

Wolfiness: 2.0 % HIGH
Predicted Adult Weight: 71 lbs
Genetic Age: 66 human years

Booth Rubin’s Mix Match Buddies

See how closely Booth Rubin’s breed mix matches other Embark dogs — a Mix Match of 100 is a perfect breed mix match

Breed Mix By Chromosome

Our advanced test identifies from where Booth Rubin inherited every part of the chromosome pairs in his genome. Each chromosome section is colored to represent the breed that it comes from.

Explore more

Swipe left and right to explore more results, or choose a category below

Family tree

>
Explore an interactive family tree and get a picture of Booth Rubin’s family.

Health

>
We have tested Booth Rubin for over 160 genetic health conditions to alert his owner to potential issues before they strike.

Traits

>
Genes for coat color and type, body size and shape, and other characteristics.

Breed Families

>
Dog breeds have been created over time for work and companionship. Find out about other dog breeds related to the breeds found in Booth Rubin.

Maternal Haplotype

>
Through the DNA inherited from Booth Rubin’s mother we can trace his ancestry back to where dogs and people first became friends. Find out how far Booth Rubin’s family has traveled.

Paternal Haplotype

>
The Y-Chromosome is only passed down from father to son. Booth Rubin’s DNA includes a story of where his father’s ancestors came from. We’ll show you more about how we categorize his ancestors all based of the science of genetics.

Let us know and we will contact Booth Rubin’s owner and make sure he is reunited with his family soon! Thank you for helping out our furry friends.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!

 
Family Tree From Embark PARENTS GRANDPARENTS GREAT GRANDPARENTS German Shepherd Dog mix Mixed German Shepherd Dog Australian Cattle Dog / Boxer mix Siberian Husky mix Boxer / Beagle mix German Shepherd Dog German Shepherd Dog Australian Cattle Dog Boxer mix Siberian Husky Siberian Husky mix Boxer mix Beagle mix
Explore by tapping your dog’s parents and grand parents.

Our algorithms predict this is the most likely family tree to explain Booth Rubin’s breed mix, but this family tree may not be the only possible one.

Explore more

Swipe left and right to explore more results, or choose a category below

Health

>
We have tested Booth Rubin for over 160 genetic health conditions to alert his owner to potential issues before they strike.

Traits

>
Genes for coat color and type, body size and shape, and other characteristics.

Breed Families

>
Dog breeds have been created over time for work and companionship. Find out about other dog breeds related to the breeds found in Booth Rubin.

Maternal Haplotype

>
Through the DNA inherited from Booth Rubin’s mother we can trace his ancestry back to where dogs and people first became friends. Find out how far Booth Rubin’s family has traveled.

Paternal Haplotype

>
The Y-Chromosome is only passed down from father to son. Booth Rubin’s DNA includes a story of where his father’s ancestors came from. We’ll show you more about how we categorize his ancestors all based of the science of genetics.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!

Summary

0
AT RISK
0
CARRIER
164
CLEAR
Tap above or scroll down to see more

Clinical traits

These genetic traits are valuable to your veterinarian and can inform the clinical decisions and diagnoses they make.

Alanine Aminotransferase Activity result: Normal
Known to be highly expressed in liver cells, activity levels of alanine aminotransferase, or ALT, is a common value on most blood chemistry panels and is known to be a se…
Booth Rubin has two normal alleles at ALT.

Not At Risk

Good news! Booth Rubin did not test positive for any of the genetic diseases that Embark screens for. Read on to learn more about the conditions we test for, but rest assured that Booth Rubin does not have the mutations known to cause them.

It is still important to let your veterinarian know these results because they could help guide Booth Rubin’s diagnosis and treatment if he gets sick in the future. Many other diseases caused by environmental factors or undiscovered genetic variants can cause symptoms similar to diseases we test for. By ruling out these mutations, your veterinarian will be able to find the true cause more quickly. Your veterinarian will also know they can safely prescribe medications some dogs are sensitive to.

Not A Carrier

Good news! Booth Rubin is not a carrier for any of the genetic diseases that Embark tests for.

Common Conditions

Good news! Booth Rubin tested clear for 41 genetic conditions that are common in his breed mix.
Condition List

MDR1 Drug Sensitivity
(MDR1)
Clinical

Sensitivity to certain classes of drugs, notably the parasiticide ivermectin, as well as certain gastroprotectant and anti-cancer medications, occurs in dogs with mutatio…

Seen in German Shepherd Dogs, but not Booth Rubin.

Factor VII Deficiency
(F7 Exon 5)
Blood

Coagulopathies represent a broad category of diseases that affect blood clotting, which can lead to symptoms such as easy bruising or bleeding. Dogs with coagulopathies a…

Seen in Beagles, but not Booth Rubin.

Factor VIII Deficiency, Hemophilia A
(F8 Exon 10, Boxer Variant)
Blood

Coagulopathies represent a broad category of diseases that affect blood clotting, which can lead to symptoms such as easy bruising or bleeding. Dogs with coagulopathies a…

Seen in Boxers, but not Booth Rubin.

Factor VIII Deficiency, Hemophilia A
(F8 Exon 11, Shepherd Variant 1)
Blood

Coagulopathies represent a broad category of diseases that affect blood clotting, which can lead to symptoms such as easy bruising or bleeding. Dogs with coagulopathies a…

Seen in German Shepherd Dogs, but not Booth Rubin.

Factor VIII Deficiency, Hemophilia A
(F8 Exon 1, Shepherd Variant 2)
Blood

Coagulopathies represent a broad category of diseases that affect blood clotting, which can lead to symptoms such as easy bruising or bleeding. Dogs with coagulopathies a…

Seen in German Shepherd Dogs, but not Booth Rubin.

Canine Leukocyte Adhesion Deficiency Type III (LAD3)
(FERMT3)
Blood

A rare disorder of white blood cells, this causes increased susceptibility to infections and bleeding tendencies. Affected dogs present with a history of persistent skin …

Seen in German Shepherd Dogs, but not Booth Rubin.

Congenital Macrothrombocytopenia
(TUBB1 Exon 1, Cavalier King Charles Spaniel Variant)
Blood

This is a benign disorder of platelet production that leads to abnormally large, sparse platelets. Affected dogs typically do not suffer any ill effects from the size or …

Seen in Boxers, Labrador Retrievers, but not Booth Rubin.

Canine Elliptocytosis
(SPTB Exon 30)
Blood

A largely benign disease of red blood cell shape, elliptocytosis rarely causes symptoms. Upon examinatino of a blood smear, however, affected dogs have elongated, oval or…

Seen in Labrador Retrievers, but not Booth Rubin.

Pyruvate Kinase Deficiency
(PKLR Exon 7 Labrador Variant)
Blood

This is a disease of red blood cells characterized by low energy level, jaundiced skin, and pale and cool extremities. Dogs affected with PKD have red blood cells that ha…

Seen in Labrador Retrievers, but not Booth Rubin.

Pyruvate Kinase Deficiency
(PKLR Exon 7 Beagle Variant)
Blood

This is a disease of red blood cells characterized by low energy level, jaundiced skin, and pale and cool extremities. Dogs affected with PKD have red blood cells that ha…

Seen in Beagles, but not Booth Rubin.

Progressive Retinal Atrophy - prcd
Progressive rod-cone degeneration (PRCD Exon 1)
Eyes

This retinal disease causes progressive, nonpainful vision loss. The retina contains the cells, photoreceptors, that collect information about light: that is, they are th…

Seen in Australian Cattle Dogs, Labrador Retrievers, but not Booth Rubin.

Golden Retriever Progressive Retinal Atrophy 2
(TTC8)
Eyes

This retinal disease causes progressive, nonpainful vision loss. The retina contains the cells, photoreceptors, that collect information about light: that is, they are th…

Seen in Labrador Retrievers, but not Booth Rubin.

Progressive Retinal Atrophy - crd4/cord1
(RPGRIP1)
Eyes

This retinal disease causes progressive, nonpainful vision loss. The retina contains the cells, photoreceptors, that collect information about light: that is, they are th…

Seen in Beagles, Labrador Retrievers, but not Booth Rubin.

Achromatopsia
(CNGA3 Exon 7 German Shepherd Variant)
Eyes

This is a progressive, nonpainful disorder of the retina that affects color vision and light perception. Cone cells not only register color, they allow the dog to adjust …

Seen in German Shepherd Dogs, but not Booth Rubin.

Achromatopsia
(CNGA3 Exon 7 Labrador Retriever Variant)
Eyes

This is a progressive, nonpainful disorder of the retina that affects color vision and light perception. Cone cells not only register color, they allow the dog to adjust …

Seen in Labrador Retrievers, but not Booth Rubin.

Glaucoma
Primary Open Angle Glaucoma (ADAMTS10 Exon 17)
Eyes

A disease that affects humans and dogs alike, this is an adult onset, medically manageable condition that causes high intraocular pressure (IOP). Left untreated, it can l…

Seen in Beagles, but not Booth Rubin.

Primary Lens Luxation
(ADAMTS17)
Eyes

This surgically correctable condition causes the lens to spontaneously detach from its normal residence within the pupil, leading to reduced visual acuity and irritation …

Seen in Australian Cattle Dogs, but not Booth Rubin.

Macular Corneal Dystrophy (MCD)
(CHST6)
Eyes

A disease of middle-aged dogs, MCD was first characterized in the Labrador Retriever. Affected dogs begin to show clouding of the eyes and visual impairment due to abnorm…

Seen in Labrador Retrievers, but not Booth Rubin.

Cystinuria Type II-A
(SLC3A1)
Kidney and Bladder

A disease of cystine accumulation, affected dogs are prone to developing cystine kidney and bladder stones, which if caught early can be managed with dietary changes, inc…

Seen in Australian Cattle Dogs, but not Booth Rubin.

X-linked Ectodermal Dysplasia, Anhidrotic Ectodermal Dysplasia
(EDA Intron 8)
Multisystem

This developmental condition can cause a scanty haircoat, malformed teeth, and few or absent sweat glands. Because dogs only have sweat glands on their paw pads, they are…

Seen in German Shepherd Dogs, but not Booth Rubin.

Renal Cystadenocarcinoma and Nodular Dermatofibrosis (RCND)
(FLCN Exon 7)
Multisystem

A multiorgan syndrome best described in the German Shepherd Dog, affected dogs display thick skin nodules and signs of kidney disease, and should be evaluated by a veteri…

Seen in German Shepherd Dogs, but not Booth Rubin.

Mucopolysaccharidosis Type VII, Sly Syndrome
(GUSB Exon 3)
Multisystem

A type of lysosomal storage disease, this can cause skeletal abnormalities, growth retardation, and gait abnormalities, and can require close monitoring and special measu…

Seen in German Shepherd Dogs, but not Booth Rubin.

Neuronal Ceroid Lipofuscinosis 8
(CLN8 Exon 2)
Multisystem

This form of lysosomal storage disease can cause juvenile to adult-onset neurologic signs, depending on the affected gene. While lipofuscin is commonly observed in the ti…

Seen in Australian Cattle Dogs, but not Booth Rubin.

GM1 Gangliosidosis
(GLB1 Exon 15 Alaskan Husky Variant)
Multisystem

An early onset form of lysosomal storage disease, this can cause affected dogs to display neurologic signs as puppies or young adults. These include partial or total visi…

Seen in Siberian Huskys, but not Booth Rubin.

Cerebellar Abiotrophy, Neonatal Cerebellar Cortical Degeneration
(SPTBN2)
Brain and Spinal Cord

Known as the most primordial part of the brain, the cerebellum fine tunes motor signals from the brain to the muscles, allowing for balance and coordination. Symptoms of …

Seen in Beagles, but not Booth Rubin.

Degenerative Myelopathy
(SOD1A)
Brain and Spinal Cord

A disease of mature dogs, this is a progressive degenerative disorder of the spinal cord that can cause muscle wasting and gait abnormalities. Affected dogs do not usuall…

Seen in German Shepherd Dogs, Siberian Huskys, Australian Cattle Dogs, Boxers, Beagles, Labrador Retrievers, but not Booth Rubin.

Fetal-Onset Neonatal Neuroaxonal Dystrophy
(MFN2)
Brain and Spinal Cord

This group of diseases center around the neuronal axon, a specialized cellular structure that helps our nervous systems relay information across great distances. Remember…

Seen in Beagles, but not Booth Rubin.

Narcolepsy
(HCRTR2 Intron 6)
Brain and Spinal Cord

A neurologic condition characterized by daytime sleepiness and fragmented sleep cycles, affected dogs also exhibit episodes of cataplexy, a sudden complete loss of muscle…

Seen in Labrador Retrievers, but not Booth Rubin.

Centronuclear Myopathy
(PTPLA)
Muscular

This muscle disorder is characterized by exercise intolerance, weight loss, and muscle wasting. While abnormal tendon reflexes can be observed as early as one month, the …

Seen in Labrador Retrievers, but not Booth Rubin.

Exercise-Induced Collapse
(DNM1)
Muscular

First characterized in field-trial lines of Labrador Retriever dogs, this muscle disorder can cause episodes of muscle weakness and sometimes collapse; after recovering, …

Seen in Labrador Retrievers, but not Booth Rubin.

Myotonia Congenita
(CLCN1 Exon 23)
Muscular

This condition is characterized by prolonged muscle contraction and stiffness that usually resolves with normal exercise, though physical therapy can be beneficial. The g…

Seen in Australian Cattle Dogs, but not Booth Rubin.

Myotubular Myopathy 1, X-linked Myotubular Myopathy
(MTM1)
Muscular

This is a degenerative muscle disease first characterized in the Labrador Retriever. Affected dogs present as puppies with failure to thrive and weakness; this rapidly pr…

Seen in Labrador Retrievers, but not Booth Rubin.

Hypocatalasia, Acatalasemia
(CAT)
Metabolic

This condition causes no ill effects in the majority of dogs; however, some dogs can suffer from mouth ulcers leading to difficulty eating and increased susceptibility to…

Seen in Beagles, but not Booth Rubin.

Malignant Hyperthermia
(RYR1)
Metabolic

This condition only manifests if affected dogs are treated with certain inhalant anesthetics, and can cause uncontrollable muscle contractions and a dangerous increase in…

Seen in German Shepherd Dogs, Siberian Huskys, Australian Cattle Dogs, Boxers, Beagles, Labrador Retrievers, but not Booth Rubin.

Imerslund-Grasbeck Syndrome, Selective Cobalamin Malabsorption
(CUBN Exon 8)
Gastro-intestinal

This is a treatable gastrointestinal disease where dogs cannot absorb cobalamin, often causing them to be runty with poor energy levels. Cobalamin is required for synthes…

Seen in Beagles, but not Booth Rubin.

Congenital Myasthenic Syndrome
(COLQ)
Neuro-muscular

This is a non-progressive disease characterized by episodes of exercise intolerance and weakness; some forms have been shown to respond to medical treatment. Though it ha…

Seen in Labrador Retrievers, but not Booth Rubin.

Hereditary Nasal Parakeratosis
(SUV39H2)
Skin & Connective Tissues

This condition causes the skin of the nose to be overly thick and shingle-like, which can be uncomfortable for your dog. HNPK isn't usually as upsetting to the dog as it …

Seen in Labrador Retrievers, but not Booth Rubin.

Musladin-Lueke Syndrome
(ADAMTSL2)
Skin & Connective Tissues

First characterized in the Beagle, condition causes abnormally strong connections between cells of the skin and muscle and can cause gait abnormalities and pressure sores…

Seen in Beagles, but not Booth Rubin.

Oculoskeletal Dysplasia 1, Dwarfism-Retinal Dysplasia
(COL9A3, Labrador Retriever)
Skeletal

A developmental disease described in the Labrador Retriever and the Samoyed, affected dogs can show signs very early in life and can include dramatic short-limbed dwarfis…

Seen in Labrador Retrievers, but not Booth Rubin.

Osteogenesis Imperfecta, Brittle Bone Disease
(COL1A2)
Skeletal

A disease of bone strength and flexibilty, affected dogs often present to the vet for spontaneous bone fractures, tooth fractures and loss, and joint pain; these symptoms…

Seen in Beagles, but not Booth Rubin.

Skeletal Dysplasia 2
(COL11A2)
Skeletal

A disease of skeletal development, this causes dogs to have abnormally short legs but similar body lengths compared to unaffected dogs, and can be observed by the time do…

Seen in Labrador Retrievers, but not Booth Rubin.

Other Conditions: Clear of 123

Booth Rubin is clear of 123 other genetic diseases that Embark tests for.

Explore more

Swipe left and right to explore more results, or choose a category below

Family tree

>
Explore an interactive family tree and get a picture of Booth Rubin’s family.

Traits

>
Genes for coat color and type, body size and shape, and other characteristics.

Breed Families

>
Dog breeds have been created over time for work and companionship. Find out about other dog breeds related to the breeds found in Booth Rubin.

Maternal Haplotype

>
Through the DNA inherited from Booth Rubin’s mother we can trace his ancestry back to where dogs and people first became friends. Find out how far Booth Rubin’s family has traveled.

Paternal Haplotype

>
The Y-Chromosome is only passed down from father to son. Booth Rubin’s DNA includes a story of where his father’s ancestors came from. We’ll show you more about how we categorize his ancestors all based of the science of genetics.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!

Coat Color

A number of genetic loci are known to affect coat color in dogs, and they all interact. In some cases, other genetic effects may also influence color and pattern.

Some other Embark dogs with this Coat Color genotype:

E Locus (Mask, Grizzle, Recessive Red)
EmE
Chromosome 5

Controls the characteristic melanistic mask seen in the German Shepherd and Pug as well as the grizzled "widow's peak" of the Afghan and Borzoi. Melanistic mask (Em) is dominant to grizzle (Eg) which is dominant to black (E) and red (e). Dogs that are EE or Ee are able to produce normal black pigment, but its distribution will be dependent on the genotypes at the K and A Loci. Dogs that are ee will be a shade of red or cream regardless of their genotype at K and A. The shade of red, which can range from a deep copper like the Irish Setter to the near-white of some Golden Retrievers, is dependent on other genetic factors including the Intensity (I) Locus, which has yet to be genetically mapped.

Want to help us map I Locus? If you haven't already, complete your ee pup's Embark profile with a photo! Remember, a picture is worth a thousand words!

Citations: Schmutz et al 2003 , Dreger and Schmutz 2010 ,

More information: http://www.doggenetics.co.uk/masks.html

K Locus (Dominant Black)
kyky
Chromosome 16

Causes a dominant black coat. Dogs with a dominant KB allele have black coats regardless of their genotype at the A locus; the coat color of dogs homozygous for the recessive ky allele are controlled by A locus. Alleles: KB > ky

Citations: Candille et al 2007

More information: http://www.doggenetics.co.uk/black.htm

A Locus (Agouti, Sable)
ayat
Chromosome 24

Determines whether hair pigment is produced in a banded red and black pattern or solid black. Fawn or sable (ay) is dominant to wolf sable (aw) which is dominant to black-and-tan (at), which is in turn dominant to recessive black (a).

Citations: Berryere et al 2005 , Dreger and Schmutz 2011 ,

More information: http://www.doggenetics.co.uk/tan.html

D Locus (Dilute, Blue, Fawn)
DD
Chromosome 25

Lightens a black coat to blue and a red coat to buff. A dilute phenotype requires two copies of the recessive d allele.

Citations: Drogemuller et al 2007

More information: http://www.doggenetics.co.uk/dilutes.html

B Locus (Brown, Chocolate, Liver, Red)
Bb
Chromosome 11

Lightens a black coat to brown, chocolate or liver. The brown phenotype requires two copies of the recessive b allele. Red or cream dogs that carry two b alleles remain red or cream but have brown noses and footpads.

Citations: Schmutz et al 2002

More information: http://www.doggenetics.co.uk/liver.html

Other Coat Traits

Furnishings, shedding and curls are all genetic! And they all interact, too. In fact, the combination of these genetic loci explain the coat phenotypes of 90% of AKC registered dog breeds.

For more information on the genetics of coat types you can refer to https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2897713/figure/F3/

Some other Embark dogs with this Coat Traits genotype:

Furnishings / Improper Coat (RSPO2)
II
Chromosome 13

Confers the distinguished moustache, beard, and eyebrows characteristic of breeds like the Schnauzer, Scottish Terrier, and Wire Haired Dachshund; only one copy of the dominant F allele is required for furnishings. The FI genotype is furnished but carries one allele for no furnishings, or improper coat. A dog with two I alleles has improper coat. The mutation is a 167-bp insertion which we measure indirectly using linked markers highly correlated with the insertion.

Citations: Cadieu et al 2010

Long Haircoat (FGF5)
GG
Chromosome 32

The FGF5 gene is known to affect hair length in many different species, including cats, dogs, mice, and humans! The "T" allele confers a long, silky haircoat as observed in the Yorkshire Terrier and the Long Haired Whippet. The ancestral "G" allele causes a shorter coat as seen in the Boxer or the American Staffordshire Terrier.

Citations: Housley & Venta 2006 , Cadieu et al 2010

Shedding (MC5R)
CC
Chromosome 1

Affects shedding propensity in non-wire-haired dogs. Dogs with the ancestral C allele, like many Labradors and German Shepherd Dogs, are heavy or seasonal shedders, while those with one or more T allele, including many Boxers, Shih Tzus and Chihuahuas, tend to be low shedders. Dogs with furnished/wire-haired coats tend to be low shedders regardless of their MC5R genotype.

Citations: Hayward et al 2016

Curly Coat (KRT71)
CC
Chromosome 27

Causes the curly coat characteristic of Poodles and Bichons Frises. Dogs need at least one copy of the "T" allele to have a wavy or curly coat; the ancestral "C" allele is associated with a straight coat.

Citations: Cadieu et al 2010

Other Body Features

Brachycephaly (BMP3)
CC
Chromosome 32

Affects skull size and shape. Many brachycephalic or "smushed face” breeds such as the English Bulldog, Pug, and Pekingese have two copies of the derived A allele. Mesocephalic (Staffordshire Terrier, Labrador) and dolichocephalic (Whippet, Collie) dogs have one, or more commonly two, copies of the ancestral C allele. At least five different genes affect snout length in dogs, with BMP3 being the only one with a known causal mutation. For example, the skull shape of some breeds, including the dolichocephalic Scottish Terrier or the brachycephalic Japanese Chin, appear to be caused by other genes.

Citations: Schoenbeck et al 2012

Natural Bobtail (T)
CC
Chromosome 1

Whereas most dogs have two C alleles and a long tail, dogs with one G allele are likely to have a bobtail, which is an unusually short or absent tail. This mutation causes natural bobtail in many breeds including the Pembroke Welsh Corgi, the Australian Shepherd, and the Brittany Spaniel. Dogs with GG genotypes have not been observed, suggesting that the GG genotype results in embryonic lethality.

Please note that this mutation does not explain every natural bobtail! While certain lineages of Boston Terrier, English Bulldog, Rottweiler, Miniature Schnauzer, Cavalier King Charles Spaniel, and Parson Russell Terrier, and Dobermans are born with a natural bobtail, these breeds do not have this mutation. This suggests that other unknown genetic mutations can also lead to a natural bobtail. If your dog does not have a CG genotype but was born with a bobtail, please email us at howdy@embarkvet.com!

Citations: Haworth et al 2001 , Hytonen et al 2009

Hind Dewclaws (LMBR1)
CC
Chromosome 16

Common in certain breeds, hind dewclaws are extra, nonfunctional digits located midway between your dog's paw and hock. Dogs with at least one copy of the T allele have about a 50% of chance of having hind dewclaws.

Citations: Park et al 2008

Body Size

Body size is a complex trait that is affected by both genetic and environmental variation. Our genetic analysis includes genes that, together, explain over 80% of the variation in dog body size. It does not account for runting or stunting; nor does it account for the interactions between various genes both known and unknown.

Some other Embark dogs with this Body Size genotype:

Body Size - IGF1
NN
Chromosome 15

The "I" allele is associated with smaller size.

Citations: Sutter et al 2007

Body Size - IGF1R
GG
Chromosome 3

The "A" allele is associated with smaller size.

Citations: Hoopes et al 2012

Body Size - STC2
TT
Chromosome 4

The "A" allele is associated with smaller size.

Citations: Rimbault et al 2013

Body Size - GHR (E195K)
GG
Chromosome 4

The "A" allele is associated with smaller size.

Citations: Rimbault et al 2013

Body Size - GHR (P177L)
CC
Chromosome 4

The "T" allele is associated with smaller size.

Citations: Rimbault et al 2013

Performance

Altitude Adaptation (EPAS1)
GG
Chromosome 10

Confers hypoxia tolerance. Dogs with at least one A allele are more tolerant of high altitude environments. This mutation was originally identified in breeds from high altitude areas such as the Tibetan Mastiff.

Citations: Gou et al 2014

Explore more

Swipe left and right to explore more results, or choose a category below

Family tree

>
Explore an interactive family tree and get a picture of Booth Rubin’s family.

Health

>
We have tested Booth Rubin for over 160 genetic health conditions to alert his owner to potential issues before they strike.

Breed Families

>
Dog breeds have been created over time for work and companionship. Find out about other dog breeds related to the breeds found in Booth Rubin.

Maternal Haplotype

>
Through the DNA inherited from Booth Rubin’s mother we can trace his ancestry back to where dogs and people first became friends. Find out how far Booth Rubin’s family has traveled.

Paternal Haplotype

>
The Y-Chromosome is only passed down from father to son. Booth Rubin’s DNA includes a story of where his father’s ancestors came from. We’ll show you more about how we categorize his ancestors all based of the science of genetics.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!

DNA shows us the unique path to each of today’s recognized breeds by exposing the relatedness between them.
Siberian Husky
3 related breeds
Siberian Husky
Bred initially in Northern Siberia, the Siberian Husky is a medium-sized working dog who is quick and light on their feet. Their moderately compact and well furred body, erect ears and brush tail suggest their Northern heritage. Huskies are very active and energetic and are known for being long distance sled dogs.
Related Breeds
Alaskan Malamute
Sibling breed
Greenland Dog
Sibling breed
Samoyed
Cousin breed
Australian Cattle Dog
6 related breeds
Australian Cattle Dog
A classic cattle dog, Australian Cattle Dogs were developed from a mixture of breeds in Australia in the 19th century, and still maintain their energetic herding instincts today.
Related Breeds
Border Collie
Sibling breed
Koolie
Sibling breed
Australian Kelpie
Sibling breed
Collie
Cousin breed
Shetland Sheepdog
Cousin breed
Bearded Collie
Cousin breed
Boxer
6 related breeds
Boxer
Developed in Germany, the Boxer is a popular family dognull-patient, loyal and smartnull-requiring lots of exercise and proper training.
Related Breeds
Bulldog
Sibling breed
French Bulldog
Sibling breed
Olde English Bulldogge
Sibling breed
Dogue de Bordeaux
Sibling breed
Cane Corso
Cousin breed
Dogo Argentino
Cousin breed
Beagle
4 related breeds
Beagle
The Beagle is a scent hound and a great family pet. They are known for being affectionate and having loud voices.
Related Breeds
Harrier
Sibling breed
Bloodhound
Sibling breed
Otterhound
Sibling breed
Basset Hound
Cousin breed
Labrador Retriever
4 related breeds
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.
Related Breeds
Flat-Coated Retriever
Sibling breed
Golden Retriever
Sibling breed
Chesapeake Bay Retriever
Cousin breed
Newfoundland
Cousin breed

Some images and text courtesy of the AKC, used with permission.

Explore more

Swipe left and right to explore more results, or choose a category below

Family tree

>
Explore an interactive family tree and get a picture of Booth Rubin’s family.

Health

>
We have tested Booth Rubin for over 160 genetic health conditions to alert his owner to potential issues before they strike.

Traits

>
Genes for coat color and type, body size and shape, and other characteristics.

Maternal Haplotype

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Through the DNA inherited from Booth Rubin’s mother we can trace his ancestry back to where dogs and people first became friends. Find out how far Booth Rubin’s family has traveled.

Paternal Haplotype

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The Y-Chromosome is only passed down from father to son. Booth Rubin’s DNA includes a story of where his father’s ancestors came from. We’ll show you more about how we categorize his ancestors all based of the science of genetics.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!

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

Haplogroup

A1e

Haplotype

A234

Map

A1e

Booth Rubin’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!

A234

Booth Rubin’s Haplotype

Part of the large A1e haplogroup, this haplotype occurs in village dogs in South America, South Asia, and into the South Pacific. Among breeds, we see it in highest frequency among Vizslas, Boxers, and Yorkshire Terriers.

Some other Embark dogs with this haplotype:

Irish Wolfhounds are a consistent carrier of A1e.

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Swipe left and right to explore more results, or choose a category below

Family tree

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Explore an interactive family tree and get a picture of Booth Rubin’s family.

Health

>
We have tested Booth Rubin for over 160 genetic health conditions to alert his owner to potential issues before they strike.

Traits

>
Genes for coat color and type, body size and shape, and other characteristics.

Breed Families

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Dog breeds have been created over time for work and companionship. Find out about other dog breeds related to the breeds found in Booth Rubin.

Paternal Haplotype

>
The Y-Chromosome is only passed down from father to son. Booth Rubin’s DNA includes a story of where his father’s ancestors came from. We’ll show you more about how we categorize his ancestors all based of the science of genetics.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!

Through Booth Rubin’s Y-chromosome we can trace his father’s ancestry back to where dogs and people first became friends. This map helps you visualize the routes that his ancestors took to your home. Their story is described below the map.

Haplogroup

A1a

Haplotype

H1a.15

Map

A1a

Booth Rubin’s Haplogroup

Some of the wolves that became the original dogs in Central Asia around 15,000 years ago came from this long and distinguished line of male dogs. After domestication, they followed their humans from Asia to Europe and then didn't stop there. They took root in Europe, eventually becoming the dogs that founded the Vizsla breed 1,000 years ago. The Vizsla is a Central European hunting dog, and all male Vizslas descend from this line. During the Age of Exploration, like their owners, these pooches went by the philosophy, "Have sail, will travel!" From the windy plains of Patagonia to the snug and homey towns of the American Midwest, the beaches of a Pacific paradise, and the broad expanse of the Australian outback, these dogs followed their masters to the outposts of empires. Whether through good fortune or superior genetics, dogs from the A1a lineage traveled the globe and took root across the world. Now you find village dogs from this line frolicking on Polynesian beaches, hanging out in villages across the Americas, and scavenging throughout Old World settlements. You can also find this "prince of patrilineages" in breeds as different as German Shepherds, Golden Retrievers, Pugs, Border Collies, Scottish Terriers, and Irish Wolfhounds. No male wolf line has been as successful as the A1a line!

H1a.15

Booth Rubin’s Haplotype

Part of the large A1a haplogroup, this haplotype is found in village dogs from across the globe (outside of Asia). As for breeds, it is primarily seen in German Shepherds, Labrador Retrievers, Nova Scotia Duck Tolling Retriever. It is by far the most common haplotype in German Shepherds.

Some other Embark dogs with this haplotype:

Dogs with A1a lineage travelled during European Colonial times.

Explore more

Swipe left and right to explore more results, or choose a category below

Family tree

>
Explore an interactive family tree and get a picture of Booth Rubin’s family.

Health

>
We have tested Booth Rubin for over 160 genetic health conditions to alert his owner to potential issues before they strike.

Traits

>
Genes for coat color and type, body size and shape, and other characteristics.

Breed Families

>
Dog breeds have been created over time for work and companionship. Find out about other dog breeds related to the breeds found in Booth Rubin.

Maternal Haplotype

>
Through the DNA inherited from Booth Rubin’s mother we can trace his ancestry back to where dogs and people first became friends. Find out how far Booth Rubin’s family has traveled.

What’s your dog’s story?

Now that you have explored what’s behind Booth Rubin find out what your dog’s DNA has to tell you. Embark tells you more about your dog than you ever thought possible. Are you ready? Let’s go!