Wisdom Panel™ Essential decodes your dog’s DNA so you can provide better care.
Ancestry
Break down your dog’s breed mix.
Dogs are one of the most diverse species on the planet. And looks can be deceiving. Even trained experts get breed identification wrong about 75% of the time when judging by visual cues alone.
Fortunately, we screen for 350+ breeds, types, and varieties and report your pup’s breed mix down to 1%. So, you’ll finally be able to confidently answer people who ask: "What kind of dog is that?"
Meet your pup’s extended family.
To accurately detect your dog’s ancestry, you need three things: a large breed database, a sophisticated algorithm, and a significant number of markers strategically placed across the genome.
We’ve got all three, which allows us to map your dog’s ancestry back three generations—all the way to their great-grandparents.
Traits
Understand your dog’s appearance.
You know what your dog looks like. But do you know why they look that way? Demystify their physical features with more than 35 trait tests.
Your dog’s test results will reveal the genetic factors that give them their distinguishing qualities and one-of-a-kind characteristics—from what makes their fur so silky (or shaggy) to how well they do at high elevation.
Predict adult size and ideal weight.
When it comes to body size, "healthy" looks different for every dog—even among those of the same breed. But planning for nutrition, providing enough exercise, and even picking a big enough dog bed doesn’t have to be a guessing game. After all, your pup’s DNA holds clues to their ideal adult weight range.
Unlock 180+ additional health tests and other exclusive features with Wisdom Panel Premium.
Demystify your dog's appearance with 35+ trait tests:
Albino
The Albino variant tested causes a complete inability to produce pigment (albinism). The variant is located in the SLC45A2 gene.
Back Muscle and Bulk
The Back Muscle and Bulk variant is associated with increased back muscle and fat. The variant is located in the ACSL4 gene.
Blue Eyes
The Blue Eyes variant is associated with blue eyes and heterochromia, which is when the eyes are two different colors, and is located in the ALX4 gene.
Chocolate (Variant 1)
Chocolate (Variant 1), also known as bc, causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Chocolate (Variant 2)
Chocolate (Variant 2), also known as bs, causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Chocolate (Variant 3)
Chocolate (Variant 3), also known as bd, causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Chocolate (Variant 4)
Chocolate (Variant 4) is an additional b allele first discovered in the Australian Shepherd Dog. It causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Curly Coat
The Curly Coat variant causes a curly coat type and is located in the KRT71 gene.
Dilution (Variant 1) Linkage test
The Dilution Variant d1 causes a lightening or dilution of pigment, especially dark pigments (eumelanin). Dilute black pigment appears grey, and dilute chocolate pigment appears isabella (a creamy brown). Red or yellow pigment (phaeomelanin) may show mild lightening of color. The variant is also known as the d1 variant and is found in the MLPH gene (known as the D locus).
Dilution (Variant 2)
The Dilution Variant d2 causes a lightening or dilution of pigment, especially dark pigments (eumelanin). Dilute black pigment appears grey, and dilute chocolate pigment appears isabella (a creamy brown). Red or yellow pigment (phaeomelanin) may show mild lightening of color. The variant is also known as the d2 variant and is found in the MLPH gene (known as the D locus).
Dilution (Variant 3)
The Dilution Variant d3 causes a lightening or dilution of pigment, especially dark pigments (eumelanin). Dilute black pigment appears grey, and dilute chocolate pigment appears isabella (a creamy brown). Red or yellow pigment (phaeomelanin) may show mild lightening of color. The variant is also known as the d3 variant and is found in the MLPH gene (known as the D locus).
Dominant Black
The Dominant Black variant is responsible for black and brindle coat colors. The Dominant Black variant is also known as KB (or Kbr if brindle), and is found in the CBD103 gene (known as the K locus).
Fawn
The Fawn variant is one of the most common red coat patterns, and is responsible for a coat with a red base, and dark-tipped hairs, often darkest over the forehead, ears, spine and tail. Fawn (also denoted as "ay") is found in the ASIP gene (known as the A locus).
Floppy Ears
The Floppy Ears variant is associated with ears that fold due to decreased cartilage stiffness. The variant is located in the MSRB3 gene.
Furnishings
The Furnishings variant causes a fuzzy beard, moustache and eyebrows, and is located in the RSPO2 gene.
Hair Ridge
The Hair Ridge variant causes an unusual permanent ridge of hair which will run down the dog's spine. The Hair Ridge variant is a duplication of the FGF3, FGF4, FGF19 and ORAOV1 genes.
Hairlessness
The Hairlessness (Discovered in the American Hairless Terrier) variant causes dogs to have little or no hair, and is located in the SGK3 gene.
Hairlessness (Discovered in the Chinese Crested Dog)
The Hairlessness (Discovered in the Chinese Crested Dog) variant causes dogs to have little or no hair, and is located in the FOXI3 gene.
Hairlessness (Discovered in the Scottish Deerhound)
The Hairlessness (Discovered in the Scottish Deerhound) variant causes a dog to have little or no hair, and is located in the SGK3 gene.
Harlequin
The Harlequin variant results in a distinctive pattern of spots of color on a white coat background, but only when the merle variant is also present. The Harlequin variant is found in the PSMB7 gene (known as the H locus).
High Altitude Adaptation
The High Altitude Adaptation variant is associated with an adaptation to living at high altitudes. The variant is located in the EPAS1 gene.
Hind Dewclaws (Discovered in Asian breeds)
The Hind Dewclaws (Discovered in Asian breeds) variant may result in the presence of hind dewclaws, which actually have no function! The variant is also known as DC-1, and is located in the LMBR1 gene.
Hind Dewclaws (Discovered in Western breeds)
The Hind Dewclaws (Discovered in Western breeds) variant may result in the presence of hind dewclaws, which actually have no function! The variant is also known as DC-2, and is located in the LMBR1 gene.
Long Hair (Variant 1)
The Long Hair variant causes long hair in dogs and is located in the FGF5 gene.
Long Hair (Variant 2)
The Long Hair variant causes long hair in dogs and is the c.556del variant located in the FGF5 gene.
Long Hair (Variant 3)
The Long Hair variant causes long hair in dogs and is the c.559dup variant located in the FGF5 gene.
Long Hair (Variant 4)
The Long Hair variant causes long hair in dogs and is the c.578C>T variant located in the FGF5 gene.
Long Hair (Variant 5)
The Long Hair variant causes long hair in dogs and is located at position chr32:g.4517257T>A in the FGF5 gene.
Mask
The Mask variant causes dark facial hair, mainly over the dog's muzzle, which looks a bit like a mask. The Mask variant is also known as Em and is found in the MC1R gene (known as the E locus).
Merle
The Merle variant causes a patchy coat pattern common in many herding breeds. Each dog's pattern is unique. On a black dog, areas of black and silver will be seen, or on a chocolate dog, areas of brown and beige. It can occur in combination with many other coat patterns, and can cause blue eyes or a fully or partly pink nose. The Merle variant is found in the PMEL gene (known as the M locus).
Piebald
The Piebald variant causes white spotting, patches and/ or a completely white coat. It can also cause blue eyes, pink or "butterfly" nose, pink eye rims, white toenails and pink paw pads. The Piebald variant, also known as "sp" (for spotting), is found in the MITF gene (known as the S locus).
Recessive Black
The Recessive Black variant is a rare cause of black coat color. The Recessive Black variant, also known as the "a" variant, is found in the ASIP gene (known as the A locus).
Recessive Red (Variant 1)
The Recessive Red variant causes only shades of red (phaeomelanin) pigment to be displayed in a dog’s coat, ranging from a deep red, to orange, yellow or even white. The variant is also known as the e variant and is found in the MC1R gene (known as the E locus).
Recessive Red (Variant 2)
The Recessive Red variant causes only shades of red (phaeomelanin) pigment to be displayed in a dog’s coat, ranging from a deep red, to orange, yellow or even white. The variant is also known as the e variant and is found in the MC1R gene (known as the E locus).
Recessive Red (Variant 3)
The Recessive Red variant causes only shades of red (phaeomelanin) pigment to be displayed in a dog’s coat, ranging from a deep red, to orange, yellow or even white. The variant is also known as the e variant and is found in the MC1R gene (known as the E locus).
Red Intensity
The Red Intensity variant causes a decrease in red (phaeomelanin) pigment concentration in the coat. Phaeomelanin is the pigment responsible for red, yellow, and pale cream coat colors. The Red Intensity variant is found in the MFSD12 gene (also known as I or Intensity locus).
Reduced Shedding
The Reduced Shedding variant is associated with a decreased tendency for a dog to shed hair. The variant is located in the MC5R gene.
Saddle Tan
The Saddle Tan variant is responsible for a red color pattern with a dark-haired saddle over the back. The variant is located in the RALY gene.
Short Legs
The Short Legs variant is associated with short legs due to chondrodysplasia. The variant is an insertion of an FGF4 gene on chromosome 18.
Short Snout (Variant 1)
Short Snout (Variant 1) causes snout shortening, and actually accounts for 36% of the variation seen in dog muzzle length. The variant is found in the SMOC2 gene.
Short Snout (Variant 2)
Short Snout (Variant 2) has been shown to cause shortening of the head and snout. The variant is found in the BMP3 gene.
Short Tail
The Short Tail variant is associated with a naturally short "bobbed" tail. The variant is located in the T-box gene.
Tan Points
The Tan Points variant is responsible for a distinct symmetrical pattern of tan and dark pigment, with tan markings on the eyebrow, cheeks, chest and lower legs. This variant is also required for a saddle tan pattern to occur.
Widow's Peak (Discovered in Ancient dogs)
The Widow's peak variant (also known as Ancient Red) causes an increase in the ratio of red (phaeomelanin) to dark pigment (eumelanin) in the coat when expressed. The variant is also known as the eA variant and is found in the MC1R gene (known as the E locus).
Widow's Peak (Discovered in the Afghan Hound and Saluki)
The Widow's peak (Discovered in the Afghan Hound and Saluki) is also known as the Grizzle variant. It is responsible for a blended effect of light and dark hair, with the lower part of the body appearing lighter than the top. Other names for this variant include Eg and Domino, and it is found in the MC1R gene (known as the E locus), and is a rare trait.
Health
Identify medical complications early.Due to genetic mutations, common medications and procedures are highly dangerous for some dogs. With 25+ medical complications tests, Wisdom Panel™ Essential helps identify conditions that could cause serious problems during routine procedures, such as spaying or neutering.
Because there’s nothing like having peace of mind about your pup’s health and safety.
Wisdom Panel Essential tests for over 25 medical complications:
Canine Leukocyte Adhesion Deficiency (CLAD), type III
Canine Leukocyte Adhesion Deficiency (CLAD) is a disease causing fever, mucosal hemorrhaging, marked dental disease, poor wound healing, and lameness.
Canine Scott Syndrome
Canine Scott Syndrome (CSS) is a bleeding disorder caused by a hereditary defect affecting blood platelets, which are important in the blood clotting process. This means that clots form more slowly at a site of bleeding.
Complement 3 Deficiency
Complement 3 Deficiency (C3D) is a disease that causes severe immunodeficiency, leaving affected dogs vulnerable to infections.
Factor VII Deficiency
Factor VII Deficiency is an inherited blood clotting disorder that results in excessive bleeding occurring after a severe trauma or surgery. The signs of the disease are typically mild but can vary in severity in different affected dogs.
Factor XI Deficiency
Factor XI Deficiency is a hereditary disorder that impacts blood clotting. The disease usually causes a mild, spontaneous bleeding disorder but more severe bleeding may occur following surgery. Many dogs that are at risk will not show any signs of disease.
Glanzmann Thrombasthenia Type I
Glanzmann thrombasthenia (GT) causes susceptibility to bleeding due to poor blood platelet aggregation.
Glanzmann Thrombasthenia Type I (Discovered in Great Pyrenees)
Glanzmann Thrombasthenia (GT) Type I is a blood disorder characterized by poor blood platelet aggregation. Platelet in the blood are needed to help start clot formation, so as a result of this disorder bleeding may be prolonged.
Hemophilia A (Discovered in Old English Sheepdog)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the Boxer)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the German Shepherd Dog - Variant 1)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the German Shepherd Dog - Variant 2)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the Havanese)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia B
Hemophilia B, also known as Factor IX Deficiency, is a blood clotting disorder most commonly seen in male dogs, which can result in prolonged bleeding after an injury or a surgical procedure.
Hemophilia B (Discovered in the Airedale Terrier)
Hemophilia B, also known as Factor IX Deficiency, is a blood clotting disorder most commonly seen in male dogs, which can result in prolonged bleeding after an injury or a surgical procedure.
Hemophilia B (Discovered in the Lhasa Apso)
Hemophilia B, also known as Factor IX Deficiency, is a blood clotting disorder most commonly seen in male dogs, which can result in prolonged bleeding after an injury or a surgical procedure.
MDR1 Medication Sensitivity
The MDR1 gene mutation causes a defect to a drug pumping protein that plays an important role in limiting drug absorption and distribution (particularly to the brain). Dogs with the MDR1 mutation may have severe adverse reactions to some commonly used medications.
May-Hegglin Anomaly
May-Hegglin Anomaly (MHA) is a blood disorder that causes deficiency and abnormal shaping of the blood platelets which are important in the clotting process.
P2RY12-associated Bleeding Disorder
This is a bleeding disorder due to a blood protein (P2RY12) defect and was first described in Greater Swiss Mountain Dogs.
Prekallikrein Deficiency
Prekallikrein Deficiency is a disorder which causes blood to take a longer time to clot.
Severe Combined Immunodeficiency
Autosomal Recessive Severe Combined Immunodeficiency (ARSCID) is a severe immunodeficiency disorder discovered in Jack Russell Terriers, that leaves affected dogs prone to infection.
Severe Combined Immunodeficiency (Discovered in Frisian Water Dogs)
Severe Combined Immunodeficiency (SCID) is a dysfunction of the immune system, that leaves affected dogs prone to infection.
Trapped Neutrophil Syndrome
Trapped Neutrophil Syndrome (TNS) is a disorder of the white blood cells first identified in Border Collies.
X-Linked Severe Combined Immunodeficiency (Discovered in the Basset Hound)
X-linked Severe Combined Immunodeficiency (XSCID) is a severe dysfunction of the immune system, that leaves affected dogs prone to infection.
X-Linked Severe Combined Immunodeficiency (Discovered in the Cardigan Welsh Corgi)
X-linked Severe Combined Immunodeficiency (XSCID) is a severe dysfunction of the immune system, that leaves affected dogs prone to infection.
von Willebrand's Disease, type 1
von Willebrand's Disease (vWD) type 1 is a clotting disorder that usually causes mild bleeding tendencies in affected dogs though some may have more severe signs. The low level of von Willebrand's factor impacts the bloods clotting ability.
von Willebrand's Disease, type 2
von Willebrand's Disease (vWD) type 2 is a blood clotting disorder that causes moderate to severe bleeding tendencies due to low level and abnormal structure of von Willebrand's factor.
von Willebrand's Disease, type 3 (Discovered in the Kooiker Hound)
von Willebrand's Disease (vWD) Type 3 is a clotting disorder that causes severe bleeding tendencies in affected dogs.
von Willebrand's Disease, type 3 (Discovered in the Scottish Terrier)
von Willebrand's Disease (vWD) Type 3 is a clotting disorder that causes severe bleeding tendencies in affected dogs.
von Willebrand's Disease, type 3 (Discovered in the Shetland Sheepdog)
von Willebrand's Disease (vWD) Type 3 is a clotting disorder that causes severe bleeding tendencies in affected dogs.
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Ancestry
Break down your dog’s breed mix.
Dogs are one of the most diverse species on the planet. And looks can be deceiving. Even trained experts get breed identification wrong about 75% of the time when judging by visual cues alone.
Fortunately, we screen for 350+ breeds, types, and varieties and report your pup’s breed mix down to 1%. So, you’ll finally be able to confidently answer people who ask: "What kind of dog is that?"
Meet your pup’s extended family.
To accurately detect your dog’s ancestry, you need three things: a large breed database, a sophisticated algorithm, and a significant number of markers strategically placed across the genome.
We’ve got all three, which allows us to map your dog’s ancestry back three generations—all the way to their great-grandparents.
Traits
Understand your dog’s appearance.
You know what your dog looks like. But do you know why they look that way? Demystify their physical features with more than 35 trait tests.
Your dog’s test results will reveal the genetic factors that give them their distinguishing qualities and one-of-a-kind characteristics—from what makes their fur so silky (or shaggy) to how well they do at high elevation.
Predict adult size and ideal weight.
When it comes to body size, "healthy" looks different for every dog—even among those of the same breed. But planning for nutrition, providing enough exercise, and even picking a big enough dog bed doesn’t have to be a guessing game. After all, your pup’s DNA holds clues to their ideal adult weight range.
Unlock 180+ additional health tests and other exclusive features with Wisdom Panel Premium.
Demystify your dog's appearance with 35+ trait tests:
Albino
The Albino variant tested causes a complete inability to produce pigment (albinism). The variant is located in the SLC45A2 gene.
Back Muscle and Bulk
The Back Muscle and Bulk variant is associated with increased back muscle and fat. The variant is located in the ACSL4 gene.
Blue Eyes
The Blue Eyes variant is associated with blue eyes and heterochromia, which is when the eyes are two different colors, and is located in the ALX4 gene.
Chocolate (Variant 1)
Chocolate (Variant 1), also known as bc, causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Chocolate (Variant 2)
Chocolate (Variant 2), also known as bs, causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Chocolate (Variant 3)
Chocolate (Variant 3), also known as bd, causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Chocolate (Variant 4)
Chocolate (Variant 4) is an additional b allele first discovered in the Australian Shepherd Dog. It causes all dark hair, eye rims, nose and paw pads on the dog to be brown or chocolate instead of black. This variant is found in the TYRP1 gene (known as the B locus).
Curly Coat
The Curly Coat variant causes a curly coat type and is located in the KRT71 gene.
Dilution (Variant 1) Linkage test
The Dilution Variant d1 causes a lightening or dilution of pigment, especially dark pigments (eumelanin). Dilute black pigment appears grey, and dilute chocolate pigment appears isabella (a creamy brown). Red or yellow pigment (phaeomelanin) may show mild lightening of color. The variant is also known as the d1 variant and is found in the MLPH gene (known as the D locus).
Dilution (Variant 2)
The Dilution Variant d2 causes a lightening or dilution of pigment, especially dark pigments (eumelanin). Dilute black pigment appears grey, and dilute chocolate pigment appears isabella (a creamy brown). Red or yellow pigment (phaeomelanin) may show mild lightening of color. The variant is also known as the d2 variant and is found in the MLPH gene (known as the D locus).
Dilution (Variant 3)
The Dilution Variant d3 causes a lightening or dilution of pigment, especially dark pigments (eumelanin). Dilute black pigment appears grey, and dilute chocolate pigment appears isabella (a creamy brown). Red or yellow pigment (phaeomelanin) may show mild lightening of color. The variant is also known as the d3 variant and is found in the MLPH gene (known as the D locus).
Dominant Black
The Dominant Black variant is responsible for black and brindle coat colors. The Dominant Black variant is also known as KB (or Kbr if brindle), and is found in the CBD103 gene (known as the K locus).
Fawn
The Fawn variant is one of the most common red coat patterns, and is responsible for a coat with a red base, and dark-tipped hairs, often darkest over the forehead, ears, spine and tail. Fawn (also denoted as "ay") is found in the ASIP gene (known as the A locus).
Floppy Ears
The Floppy Ears variant is associated with ears that fold due to decreased cartilage stiffness. The variant is located in the MSRB3 gene.
Furnishings
The Furnishings variant causes a fuzzy beard, moustache and eyebrows, and is located in the RSPO2 gene.
Hair Ridge
The Hair Ridge variant causes an unusual permanent ridge of hair which will run down the dog's spine. The Hair Ridge variant is a duplication of the FGF3, FGF4, FGF19 and ORAOV1 genes.
Hairlessness
The Hairlessness (Discovered in the American Hairless Terrier) variant causes dogs to have little or no hair, and is located in the SGK3 gene.
Hairlessness (Discovered in the Chinese Crested Dog)
The Hairlessness (Discovered in the Chinese Crested Dog) variant causes dogs to have little or no hair, and is located in the FOXI3 gene.
Hairlessness (Discovered in the Scottish Deerhound)
The Hairlessness (Discovered in the Scottish Deerhound) variant causes a dog to have little or no hair, and is located in the SGK3 gene.
Harlequin
The Harlequin variant results in a distinctive pattern of spots of color on a white coat background, but only when the merle variant is also present. The Harlequin variant is found in the PSMB7 gene (known as the H locus).
High Altitude Adaptation
The High Altitude Adaptation variant is associated with an adaptation to living at high altitudes. The variant is located in the EPAS1 gene.
Hind Dewclaws (Discovered in Asian breeds)
The Hind Dewclaws (Discovered in Asian breeds) variant may result in the presence of hind dewclaws, which actually have no function! The variant is also known as DC-1, and is located in the LMBR1 gene.
Hind Dewclaws (Discovered in Western breeds)
The Hind Dewclaws (Discovered in Western breeds) variant may result in the presence of hind dewclaws, which actually have no function! The variant is also known as DC-2, and is located in the LMBR1 gene.
Long Hair (Variant 1)
The Long Hair variant causes long hair in dogs and is located in the FGF5 gene.
Long Hair (Variant 2)
The Long Hair variant causes long hair in dogs and is the c.556del variant located in the FGF5 gene.
Long Hair (Variant 3)
The Long Hair variant causes long hair in dogs and is the c.559dup variant located in the FGF5 gene.
Long Hair (Variant 4)
The Long Hair variant causes long hair in dogs and is the c.578C>T variant located in the FGF5 gene.
Long Hair (Variant 5)
The Long Hair variant causes long hair in dogs and is located at position chr32:g.4517257T>A in the FGF5 gene.
Mask
The Mask variant causes dark facial hair, mainly over the dog's muzzle, which looks a bit like a mask. The Mask variant is also known as Em and is found in the MC1R gene (known as the E locus).
Merle
The Merle variant causes a patchy coat pattern common in many herding breeds. Each dog's pattern is unique. On a black dog, areas of black and silver will be seen, or on a chocolate dog, areas of brown and beige. It can occur in combination with many other coat patterns, and can cause blue eyes or a fully or partly pink nose. The Merle variant is found in the PMEL gene (known as the M locus).
Piebald
The Piebald variant causes white spotting, patches and/ or a completely white coat. It can also cause blue eyes, pink or "butterfly" nose, pink eye rims, white toenails and pink paw pads. The Piebald variant, also known as "sp" (for spotting), is found in the MITF gene (known as the S locus).
Recessive Black
The Recessive Black variant is a rare cause of black coat color. The Recessive Black variant, also known as the "a" variant, is found in the ASIP gene (known as the A locus).
Recessive Red (Variant 1)
The Recessive Red variant causes only shades of red (phaeomelanin) pigment to be displayed in a dog’s coat, ranging from a deep red, to orange, yellow or even white. The variant is also known as the e variant and is found in the MC1R gene (known as the E locus).
Recessive Red (Variant 2)
The Recessive Red variant causes only shades of red (phaeomelanin) pigment to be displayed in a dog’s coat, ranging from a deep red, to orange, yellow or even white. The variant is also known as the e variant and is found in the MC1R gene (known as the E locus).
Recessive Red (Variant 3)
The Recessive Red variant causes only shades of red (phaeomelanin) pigment to be displayed in a dog’s coat, ranging from a deep red, to orange, yellow or even white. The variant is also known as the e variant and is found in the MC1R gene (known as the E locus).
Red Intensity
The Red Intensity variant causes a decrease in red (phaeomelanin) pigment concentration in the coat. Phaeomelanin is the pigment responsible for red, yellow, and pale cream coat colors. The Red Intensity variant is found in the MFSD12 gene (also known as I or Intensity locus).
Reduced Shedding
The Reduced Shedding variant is associated with a decreased tendency for a dog to shed hair. The variant is located in the MC5R gene.
Saddle Tan
The Saddle Tan variant is responsible for a red color pattern with a dark-haired saddle over the back. The variant is located in the RALY gene.
Short Legs
The Short Legs variant is associated with short legs due to chondrodysplasia. The variant is an insertion of an FGF4 gene on chromosome 18.
Short Snout (Variant 1)
Short Snout (Variant 1) causes snout shortening, and actually accounts for 36% of the variation seen in dog muzzle length. The variant is found in the SMOC2 gene.
Short Snout (Variant 2)
Short Snout (Variant 2) has been shown to cause shortening of the head and snout. The variant is found in the BMP3 gene.
Short Tail
The Short Tail variant is associated with a naturally short "bobbed" tail. The variant is located in the T-box gene.
Tan Points
The Tan Points variant is responsible for a distinct symmetrical pattern of tan and dark pigment, with tan markings on the eyebrow, cheeks, chest and lower legs. This variant is also required for a saddle tan pattern to occur.
Widow's Peak (Discovered in Ancient dogs)
The Widow's peak variant (also known as Ancient Red) causes an increase in the ratio of red (phaeomelanin) to dark pigment (eumelanin) in the coat when expressed. The variant is also known as the eA variant and is found in the MC1R gene (known as the E locus).
Widow's Peak (Discovered in the Afghan Hound and Saluki)
The Widow's peak (Discovered in the Afghan Hound and Saluki) is also known as the Grizzle variant. It is responsible for a blended effect of light and dark hair, with the lower part of the body appearing lighter than the top. Other names for this variant include Eg and Domino, and it is found in the MC1R gene (known as the E locus), and is a rare trait.
Health
Identify medical complications early.Due to genetic mutations, common medications and procedures are highly dangerous for some dogs. With 25+ medical complications tests, Wisdom Panel™ Essential helps identify conditions that could cause serious problems during routine procedures, such as spaying or neutering.
Because there’s nothing like having peace of mind about your pup’s health and safety.
Wisdom Panel Essential tests for over 25 medical complications:
Canine Leukocyte Adhesion Deficiency (CLAD), type III
Canine Leukocyte Adhesion Deficiency (CLAD) is a disease causing fever, mucosal hemorrhaging, marked dental disease, poor wound healing, and lameness.
Canine Scott Syndrome
Canine Scott Syndrome (CSS) is a bleeding disorder caused by a hereditary defect affecting blood platelets, which are important in the blood clotting process. This means that clots form more slowly at a site of bleeding.
Complement 3 Deficiency
Complement 3 Deficiency (C3D) is a disease that causes severe immunodeficiency, leaving affected dogs vulnerable to infections.
Factor VII Deficiency
Factor VII Deficiency is an inherited blood clotting disorder that results in excessive bleeding occurring after a severe trauma or surgery. The signs of the disease are typically mild but can vary in severity in different affected dogs.
Factor XI Deficiency
Factor XI Deficiency is a hereditary disorder that impacts blood clotting. The disease usually causes a mild, spontaneous bleeding disorder but more severe bleeding may occur following surgery. Many dogs that are at risk will not show any signs of disease.
Glanzmann Thrombasthenia Type I
Glanzmann thrombasthenia (GT) causes susceptibility to bleeding due to poor blood platelet aggregation.
Glanzmann Thrombasthenia Type I (Discovered in Great Pyrenees)
Glanzmann Thrombasthenia (GT) Type I is a blood disorder characterized by poor blood platelet aggregation. Platelet in the blood are needed to help start clot formation, so as a result of this disorder bleeding may be prolonged.
Hemophilia A (Discovered in Old English Sheepdog)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the Boxer)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the German Shepherd Dog - Variant 1)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the German Shepherd Dog - Variant 2)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia A (Discovered in the Havanese)
Hemophilia A, also known as Factor VIII Deficiency, is a blood clotting disorder, which can cause bruising or abdominal bleeding without apparent reason. The disease is more commonly seen in male dogs.
Hemophilia B
Hemophilia B, also known as Factor IX Deficiency, is a blood clotting disorder most commonly seen in male dogs, which can result in prolonged bleeding after an injury or a surgical procedure.
Hemophilia B (Discovered in the Airedale Terrier)
Hemophilia B, also known as Factor IX Deficiency, is a blood clotting disorder most commonly seen in male dogs, which can result in prolonged bleeding after an injury or a surgical procedure.
Hemophilia B (Discovered in the Lhasa Apso)
Hemophilia B, also known as Factor IX Deficiency, is a blood clotting disorder most commonly seen in male dogs, which can result in prolonged bleeding after an injury or a surgical procedure.
MDR1 Medication Sensitivity
The MDR1 gene mutation causes a defect to a drug pumping protein that plays an important role in limiting drug absorption and distribution (particularly to the brain). Dogs with the MDR1 mutation may have severe adverse reactions to some commonly used medications.
May-Hegglin Anomaly
May-Hegglin Anomaly (MHA) is a blood disorder that causes deficiency and abnormal shaping of the blood platelets which are important in the clotting process.
P2RY12-associated Bleeding Disorder
This is a bleeding disorder due to a blood protein (P2RY12) defect and was first described in Greater Swiss Mountain Dogs.
Prekallikrein Deficiency
Prekallikrein Deficiency is a disorder which causes blood to take a longer time to clot.
Severe Combined Immunodeficiency
Autosomal Recessive Severe Combined Immunodeficiency (ARSCID) is a severe immunodeficiency disorder discovered in Jack Russell Terriers, that leaves affected dogs prone to infection.
Severe Combined Immunodeficiency (Discovered in Frisian Water Dogs)
Severe Combined Immunodeficiency (SCID) is a dysfunction of the immune system, that leaves affected dogs prone to infection.
Trapped Neutrophil Syndrome
Trapped Neutrophil Syndrome (TNS) is a disorder of the white blood cells first identified in Border Collies.
X-Linked Severe Combined Immunodeficiency (Discovered in the Basset Hound)
X-linked Severe Combined Immunodeficiency (XSCID) is a severe dysfunction of the immune system, that leaves affected dogs prone to infection.
X-Linked Severe Combined Immunodeficiency (Discovered in the Cardigan Welsh Corgi)
X-linked Severe Combined Immunodeficiency (XSCID) is a severe dysfunction of the immune system, that leaves affected dogs prone to infection.
von Willebrand's Disease, type 1
von Willebrand's Disease (vWD) type 1 is a clotting disorder that usually causes mild bleeding tendencies in affected dogs though some may have more severe signs. The low level of von Willebrand's factor impacts the bloods clotting ability.
von Willebrand's Disease, type 2
von Willebrand's Disease (vWD) type 2 is a blood clotting disorder that causes moderate to severe bleeding tendencies due to low level and abnormal structure of von Willebrand's factor.
von Willebrand's Disease, type 3 (Discovered in the Kooiker Hound)
von Willebrand's Disease (vWD) Type 3 is a clotting disorder that causes severe bleeding tendencies in affected dogs.
von Willebrand's Disease, type 3 (Discovered in the Scottish Terrier)
von Willebrand's Disease (vWD) Type 3 is a clotting disorder that causes severe bleeding tendencies in affected dogs.
von Willebrand's Disease, type 3 (Discovered in the Shetland Sheepdog)
von Willebrand's Disease (vWD) Type 3 is a clotting disorder that causes severe bleeding tendencies in affected dogs.
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