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Persian DNA bundle (PKD + pd-PRA + AMD + Blood Groups)
Test number: 8713
Price: £ 72.00 (including VAT) for all 4 tests
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1 ) PKD (Feline Polycystic Kidney Disease)
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Breeds
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Turkish Angora
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British Shorthair (BSH)
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Birman (Sacred cat of Burma)
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British Longhair (BLH)
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Chartreux
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Colourpoint
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Exotic Shorthair
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Persian
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Persian Ragdoll
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Persian Related
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Ragdoll
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Ragdoll Related
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Russian Blue
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Scottish Fold Longhair
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Scottish Fold Shorthair
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Selkirk Rex Longhair
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Selkirk Rex Shorthair
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The Disease |
Feline polycystic kidney disease is an inherited disease in Persian and Persian related cats. Approximately 38 % of Persian cats world-wide are positive for PKD, which is 6% of cats in total, making it the most prominent inherited feline disease. PKD causes the formation of hepatic and renal cysts as well as of fluid-filled renal cysts, often leading to renal failure.
Cystic kidneys can sporadically occur in any population of cats, but early onset and bilateral presentation is a hallmark to the hereditary form. The kidney cysts for PKD are present early, generally before 12 months, but renal failure generally occurs at a later time, thus it is considered a late onset renal disease. The presence of cystic kidneys can be determined by 6 to 8 months of age by ultrasonic techniques and affection diagnosis is generally certain by one to two years. Average age for renal dysfunction, not failure, is 7 years for cats with PKD. Thus, with out imaging techniques, cats would go undiagnosed for PKD for many years. Clinical signs are non specific but common to cats experiencing renal dysfunction, including depression, anorexia, reduced appetite, polyuria, polydypsia, and weight loss.
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Description |
PKD - the mutation
Recently, the mutation which is suggested to cause PKD in cats was found by Dr. Leslie Lyons (University of Davis, USA). This mutation was found in all PKD affected cats but not in cats which were tested free by means of ultrasonic techniques.
PKD - the DNA test
By DNA testing the mutation can be shown directly. The testing is carried out by state of the art laboratory methods and therefore provides a very high accuracy. In general DNA tests can be done at any age.
The test can be applied to Persian and Persian related cats, which were cross bred to Persians. With this test we can diagnose the reported mutation, but by no means we can report on the presence/absence of the disease (especially in breeds where the correlation of PKD disease and the cited mutation is not proven). The results that are transmitted contain the information on presence/absence of the C to A mutation in the PKD 1 gene exon 29 in the sample of the cat examined. We want to point out that there is still a small possibility of other mutations causing PKD which are not identified so far.
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Trait of Inheritance |
PKD is inherited as a single autosomal dominant condition. Heterozygous animals show all clinical signs of disease and can not live normal lives. They are able to propagate mutations throughout the population. Generally, 50% of a PKD positive cats' offspring will inherit PKD.
Homozygous affected animals for PKD have not been found suggesting that the mutation in its homozygous form is embryonically lethal.
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Inheritance : AUTOSOMAL
DOMINANT
trait
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2 ) Progressive Retinal Atrophy (pd-PRA)
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Breeds
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Turkish Angora
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British Shorthair (BSH)
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Birman (Sacred cat of Burma)
,
British Longhair (BLH)
,
Chartreux
,
Colourpoint
,
Exotic Shorthair
,
Persian
,
Ragdoll
,
Russian Blue
,
Scottish Fold Longhair
,
Scottish Fold Shorthair
,
Selkirk Rex Longhair
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Selkirk Rex Shorthair
.
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The Disease |
The pd- PRA-form of Progressive Retinal Atrophy is an autosomal recessive genetic disorder.
The onset of photoreceptor loss is around 5 weeks of age progressing to severe loss by the age of 16 weeks. Clinical symptoms include uncoordinated eye movement, increased eye-shine was reported as thinning of the retina progresses. Corneal thinning is not observed. Cats with one normal and one mutated gene (carriers) have normal vision although photoreceptor loss has been noted.
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Trait of Inheritance |
Autosomal Recessive
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Inheritance : AUTOSOMAL
RECESSIVE
trait
Sire
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Dam
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Offspring
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clear
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clear
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100% clear
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clear
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carrier
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50% clear + 50%
carriers
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clear
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affected
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100% carriers
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carrier
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clear
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50% clear + 50%
carriers
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carrier
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carrier
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25% clear + 25% affected
+ 50% carriers
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carrier
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affected
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50% carriers + 50%
affected
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affected
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clear
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100% carriers
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affected
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carrier
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50% carriers + 50%
affected
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affected
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affected
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100% affected
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Clear
Genotype: N / N [ Homozygous normal ]
The cat is noncarrier of the mutant gene.
It is very unlikely that the cat will develop Progressive Retinal Atrophy (pd-PRA). The cat will never pass the mutation to its offspring, and therefore it can be bred to any other cat.
Carrier
Genotype: N / pd-PRA [ Heterozygous ]
The cat carries one copy of the mutant gene and one
copy of the normal gene.
It is very unlikely that the cat will develop Progressive Retinal Atrophy (pd-PRA) but since it carries the mutant gene, it can pass it on to its offspring with the probability of 50%. Carriers should only be bred to clear cats. Avoid breeding carrier to carrier because 25% of their offspring is expected to be affected (see table above)
Affected
Genotype: pd-PRA / pd-PRA [ Homozygous mutant ]
The cat carries two copies of the mutant gene and
therefore it will pass the mutant gene to its entire offspring.
The cat is likely to develop Progressive Retinal Atrophy (pd-PRA) and will pass the mutant gene to its entire offspring
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3 ) Alpha-Mannosidosis (AMD)
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The Disease |
Alpha-mannosidosis is a rare inherited disease of cats caused by an abnormal lysosomal storage within cells.
The Alpha-mannosidosis (AMD) is a lysosomal storage disorder caused by a deficiency of the enzyme Alpha-D-mannosidase. The causative mutation prevents formation of the enzyme, resulting in an intracellular accumulation of mannose-rich oligosaccharides
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Clinical Signs |
Clinical symptoms include skeletal abnormalities, neurological signs such as ataxia and tremors, and corneal and lenticular opacities.
Stillbirths and neonatal deaths may occur in Persian litters and many affected animals may not survive the first 6 months of life.
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Trait of Inheritance |
Autosomal Recessive
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Inheritance : AUTOSOMAL
RECESSIVE
trait
Sire
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Dam
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Offspring
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clear
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clear
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100% clear
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clear
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carrier
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50% clear + 50%
carriers
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clear
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affected
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100% carriers
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carrier
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clear
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50% clear + 50%
carriers
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carrier
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carrier
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25% clear + 25% affected
+ 50% carriers
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carrier
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affected
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50% carriers + 50%
affected
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affected
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clear
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100% carriers
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affected
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carrier
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50% carriers + 50%
affected
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affected
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affected
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100% affected
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Clear
Genotype: N / N [ Homozygous normal ]
The cat is noncarrier of the mutant gene.
It is very unlikely that the cat will develop Alpha-Mannosidosis (AMD). The cat will never pass the mutation to its offspring, and therefore it can be bred to any other cat.
Carrier
Genotype: N / AMD [ Heterozygous ]
The cat carries one copy of the mutant gene and one
copy of the normal gene.
It is very unlikely that the cat will develop Alpha-Mannosidosis (AMD) but since it carries the mutant gene, it can pass it on to its offspring with the probability of 50%. Carriers should only be bred to clear cats. Avoid breeding carrier to carrier because 25% of their offspring is expected to be affected (see table above)
Affected
Genotype: AMD / AMD [ Homozygous mutant ]
The cat carries two copies of the mutant gene and
therefore it will pass the mutant gene to its entire offspring.
The cat is likely to develop Alpha-Mannosidosis (AMD) and will pass the mutant gene to its entire offspring
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4 ) Genetic Blood groups in cats
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update September 2019: LABOKLIN holds the patent for the new improved test, which:
- is validated for all cat breeds except Domestic Shorthair, and
- can now check for more 'b' allele variants than ever before including the b3 which was identified by researchers at Laboklin, and
- can check for the 'c' allele which is resposnible for the AB serotyp, and
- only available at Laboklin
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The Disease |
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The AB system is the major blood group system in domestic cats. The common blood
types are A and B. Cats with bloodtype B have anti-A antibodies at a high titer and
cats with blood type A have anti-B antibodies at a low titer. Cats with the rare AB
blood type do not have anti-A or anti-B antibodies. These natural antibodies can leed to bloodgroup incompatibility that can be lethal. The condition is known as Neonatal isoerythrolysis (NI), first symptoms are dyspnea, vomiting and agitation.
A recent study at Laboklin identified a number of new variants involved in determining the different blood groups in cats. Our Genetic Blood Group DNA test has now been updated with the new variants and as a result we can now screen all cat breeds except Domestic Shorthair for genetic blood groups. The updated test can detect the 'b' mutation which is reposnible for blood group 'B' more accurately than before and in more breeds, and the 'c' mutation which is repsonsible for blood group 'AB' in Ragdoll and Bengal can now be detected.
The test is valid for all cat breeds except: Domestic Shorthair.
The new improved test is more comperhensive than any other commercially available tests.
Neonatal isoerythrolysis (NI): Neonatal isoerythrolysis occurs when kitten with blood group A or AB (also known as C) are born to a queen with blood type B. A-type and AB-type kittens absorb the anti-A antibodies from the breast milk. The hemolytic disease that ensues can be lethal.
This incompatibility reaction, especially important for breeders, is neonatal isoerythrolysis (NI). Neonatal isoerythrolysis in cats, also called fading kitten syndrome, is a dissolution of the red blood cells.
Only new born cats with blood groups A or AB (also known as C) whose mother has blood group B are affected by NI. In pedigree catteries, neonatal isoerythrolysis may occur in first-born and multiparous queens with blood group B, if they are mated to toms having blood groups A or AB (also known as C).
The kittens, with blood group A and AB (also known as C), which were born healthy, however, take up the mother's antibodies with the colostrum. These bind to the erythrocytes, which are then destroyed. Anaemia, excretion of protein in the urine and jaundice are the consequences, so that the kittens usually die within the first week of life. In some cases, the intestinal barrier is already closed at the time of birth, so that the absorption of the immunoglobulins by the kitten is prevented. Therefore, some theoretically at-risk kittens may not develop neonatal isoerythrolysis. Thus, not all kittens with blood groups A and C whose mother is type B develop NI.
Good to know Blood type B kittens whose mothers have blood group A do not develop NI. This is due to the low anti-B antibody titre in blood group A queens.
As a rule, new born kittens with clinical symptoms cannot be treated successfully. However, neonatal isoerythrolysis can be prevented by determining the blood groups of possible breeding partners in advance and avoiding mating between queens with blood group B and toms with types groups A or AB (also known as C). However, if such mating does occur, the kittens with blood groups A or AB (also known as C) should be separated from their type B mother immediately after birth and should be hand-fed for the first 24-48 hours to prevent them from ingesting colostrum containing high levels of anti-A antibodies, which can cause NI. After this period, the intestinal barrier will be closed and kittens can safely return to the queen and nurse as usual.
For the genetic blood group determination, Laboklin requires either an EDTA blood sample (0.5 - 1 ml) or 2 cheek swabs. The sample run time after sample arrival is approx. 3-5 working days.
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Description |
The differences between blood types is determined by the activity of cytidine monophospho-N-acetylneuraminic acid hydroxylase (CMAH). CMAH is only active in type A erythrocytes and either absent or non-functional in type B red blood cells. This inactivity is caused by different mutations in the CMAH gene.
The original mutation which is causative for blood type B was found by Leslie A. Lyons research team and allows for correctly identifying 86 % of all type B cats which still left 14 % of serological type B cats misidentified, especially Ragdolls and Turkish Angora cats.
Our own research shows that additional screening for two other novel mutations correctly identifies 99% of all type B cats. By determining just these two novel variants all type A and B Ragdolls were identified correctly. These two mutations were also found to be causative for blood type B in Turkish Angora, Neva Masquerade, Scottish Fold as well as Domestic Shorthair cats
Leslie A. Lyons research team found another variant in CMAH which is responsible for blood type C (AB) in Ragdolls. We found that this specific mutation is not exclusively found in Ragdolls even though it is rare in other breeds. Type C Bengal cats could also be correctly identified by this mutation and it was also found in British Shorthairs, Maine Coons and Scottish Fold cats.
Since 2017 we practice a genotyping scheme with four variants, three of those to identify blood type B cats correctly and one additional to include the most common variant for blood type C.
The test now detects three genetic variants for the 'b' allele (268T>A, 179G>T, 1322delT) and one variant for the 'c' allele (364C>T).
The 3 'b' variants are also known as b1, b2, and b3.
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Price
for the above 4 tests
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£ 72.00 (including VAT)
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See also: |
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HCM 1 (Hypertrophic Cardiomyopathy)
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Osteochondrodysplasia (Scottish Fold Osteodystrophy) OCD
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HCM (Hypertrophic Cardiomyopathy HCM3/HCR)
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PKD (Feline Polycystic Kidney Disease)
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PK Deficiency (Pyruvate Kinase Deficiency)
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Progressive Retinal Atrophy ( rdAc - PRA )
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SMA (Spinal Muscular Atrophy )
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Serological Evaluation of blood Groups
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Hypokalemia / Familial Episodic Hypokalaemic Polymyopathy (BHK)
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Head Defect (BHD)
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Alpha-Mannosidosis (AMD)
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Congenital Myasthenic Syndrome (CMS) / Hereditary Myopathy
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Gangliosidosis GM1
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Gangliosidosis GM2
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Gangliosidosis GM2
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Mucopolysaccharidosis Type VI (MPS VI MPS6)
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Mucopolysaccharidosis type VII (MPS VII / MPS7)
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Myotonia Congenita (Fainting Goat)
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Progressive Retinal Atrophy (pd-PRA)
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Progressive Retinal Atrophy (rdy-PRA)
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Hypotrichosis and Short Life Expectancy
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Progressive Retinal Atrophy in Bengal (PRA-b / b-PRA)
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Special Offer: HCM, HCR, GSD4, PKD, PRA, PK-Def., SMA, Blood Groups
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Primary Congenital Glaucoma (PCG)
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Cystinuria (Feline Cystinuria) (CY)
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British Short / Long Hair DNA bundle (PKD + pd-PRA + ALPS + Blood Groups)
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Burmese DNA bundle (Hypokalemia (BHK) + Head Defect + Gangliosidosis (GM2) + Blood Groups
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Birma DNA bundle (PKD + pd-PRA + Hypotrichiose + MPS6 + Blood Groups)
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Bengal DNA bundle (rdAc-PRA + b-PRA + PK-Def + Blood groups)
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Maine Coon DNA bundle (HCM1 + SMA + PK-Def + FXI + Blood Groups)
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Ragdoll DNA bundle (HCM1 + HCM3 + PKD + pd-PRA + Blood groups)
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Norwegian Forest DNA bundle (PK-Def + Amber + GSD4 + Blood groups)
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Siamese / Oriental DNA bundle (GM1 + MPS6 + PCG + rdAc-PRA + Blood Groups)
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Sphynx DNA bundle (HCM4 + Hypokalemia + CMS + Blood groups)
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Acrodermatitis enteropathica in Felis catus
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Factor XI deficiency ( F11 )
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MDR1 Gene Defect
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Skeletal Dysplasia
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Factor 12 FXII cat
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Devon Rex DNA bundle (CMS + Blood Groups + Long Coat + Rex Hair)
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Siberian DNA Bundle (Blood Groups + PK-Def + Dilution + Colourpoint)
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Genetic Blood groups in cats
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LABOGenetics XXL Cat - Comprehensive Feline DNA bundle
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Autoimmune Lymphoproliferative Syndrome (ALPS)
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Polydactyly (extra toes) / polydactylism / Polydactyl / hyperdactyly
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Unlisted DNA test
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Congenital Hypothyroidism (CH)
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Maine Coon 8 DNA tests bundle (HCM, SMA, PKDef, Poly, b, b1, cb, cs)
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Blue Eyes
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HCM4 ( Hypertrophic Cardiomyopathy HCM 4) in Sphynx
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Polycystic Kidney Disease 2 (PKD2)
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Glycogen Storage Disease ( GSD ) Type IV
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