answersLogoWhite

0

Types of pitbulls

Updated: 12/13/2022
User Avatar

Wiki User

13y ago

Best Answer

The pit bull breed is a breed that has many colors available. Some people call the colors a type of pit bull. I will post the genetic code for the pit bull written by Amy Greenwood Burford B.S.

Locus A Series: Dark Pigment Pattern

This locus has six different alleles possible in the canine population. Only three are present in the APBT breed.

(As) dominant Black

(Ay) dominant Yellow

(at) bicolored pattern (tan 'Doberman like' markings on a solid coat)

The A alleles are pattern factors that control the amount and area distribution of dark and light pigment. They act within the hair follicle to switch pigment synthesis between light and dark. It is important to remember that alleles at this locus interact with Locus E alleles.

(As) - DOMINANT BLACK: This allele produces uniform coverage of dark pigment over the entire body. Its action is expressed in all dogs with black or brown coats. The (As) allele is almost completely dominant over others in the A series. The black color ranges from pure black to a black with a brownish cast (seal). Geneticists are uncertain if the allele is incapable to produce pure black without additional help from another locus, or if the brown cast indicates a heterozygous allele.

(Ay) - DOMINANT YELLOW: The (Ay) allele restricts dark pigment, producing yellow colors. When homozygous, the coat can be clear gold, but often has black tipped hairs, especially on the head and down the back.

(at) - BLACK AND TAN PATTERN (BICOLORED): The typical tan points are above each eye, on each cheek, on the lips and lower jaw, extending under the throat, two spots on the chest, below the tail, and on the feet to the pasterns and hocks, extending up the inner sides of the legs. These tan points can occur on black or seal, blue, chocolate or red solid colored dogs. A great deal of variation can occur with these tan points, even within the depth of the pigment. In some dogs the tan points are not always marked and the color contrast is not always distinct.

Locus B Series - Black/Brown Pigment

(B) black pigment

(b) brown pigment

This locus contains only two alleles, the dominant (B) producing black skin and nose pigment and the (b) recessive allele, producing brown pigment. In dogs that are red or buckskin, the Locus (B) alleles are expressed in skin color, most visible around the eyes and nose. The black nose indicates the genotype is (BB) or (Bb), both which would be expressed as black nose because of the dominance of the (B) allele. A light brown or red nose is (bb), or homozygous recessive. Being homozygous recessive, both parents must contribute one recessive (b) gene to the offspring to produce the red nose. When breeding two dogs with the (bb) genotype, the only resulting combination in the pups would be ( bb) or red nose.

Locus C: Pigment depth

The Locus C series controls the production of pigment throughout the coat. In dogs, the expression of the Locus C alleles is based on observation rather than experimental studies. The American Staffordshire Terrier breed is felt to have only the dominant (C) allele at this locus. The C allele allows the full expression of color, of dark and light pigments. The allele (cch) or Chinchilla Dilution, found in other breeds at this locus, causes the light pigments to be diluted out in various degrees. This would account for the varying shades found in many littermates depending on their homozygous or heterozygous pairing. The chinchilla dilution allele (cch) does not affect the dark pigment, thus allowing for the white dog with black skin pigment and black nose. Other researchers (Robinson) feel that other modifier polygenes are responsible for this phenotype.

CC full color

Ccch medium shade

cchcch pale shade

Locus D pair: Pigment density

(D) intense pigment density

(d) dilute pigment density

The locus D pair modifies the density of the pigment. The dominant (D) gives full density in both the heterozygous (Dd) or the homozygous (DD) combination. The homozygous recessive (dd) alleles dilute the color. When the dogs basic color is produced by dark pigment, genotype (Bbdd) or (BBdd) yields the color known as blue. The black coat is modified as well as the skin pigment to a gray or blue pigment around the eyes, pads and nose. When the dogs basic color is produced by a light pigment the genotype bbdd (dilute brown pigment) produces a fawn with a silvery cast known in our breed as a fawn/bluies. The skin pigment around the eyes is flesh colored as well as a red or brown colored nose.

Locus E Series: Extension

(Em) black mask

(Ebr) brindle

(E) extension of dark pigment

(f) restriction of dark pigment

The Locus E alleles affect the extension of dark pigment, and all of the alleles at this locus interact with those of locus A.

(Em) - BLACK MASK: This allele is dominant to all others in the series and is expressed as a black mask on dogs that are not solid black. One researcher, Robinson, considers the evidence that the black mask belongs in the E series as unconvincing and assigns it to a different series.

(Ebr) - BRINDLE PATTERN: The brindle allele produces the brindle pattern with stripes or bars of dark pigment on a background of light pigment. In dogs with the dominant (As) allele, which produces a solid coat of dark pigment (brown or black), the (Ebr) allele is masked because there is no light pigment on which it can act. It is dominant over the extension (E) allele. In our breed, interactions with alleles at the B and D loci produce a rich variety of brindle colors:

Ay-B-D-Ebr- black brindle

Ay-B-ddEbr- blue brindle

Ay-bbD-Ebr- brown or chocolate brindle

Ay-bbddEbr- fawn brindle

(The (-) as the second allele at the locus pair denotes an allele that is uncertain because of the dominant nature of the first allele. It could be homozygous or heterozygous with any of the other alleles.)

(E) - EXTENSION: The E allele produces normal extension or expression of dark pigment. It interacts with Locus A alleles to produce a variety of effects:

As-E- black/brown

Ay-E- red or buckskin with or without black ticked hairs (on head and back) referred to as sable in other breeds

(ee) - RESTRICTION: The homozygous (ee) alleles restricts the expression of dark pigment, producing the yellow shades by light pigment. It does allow the expression of dark pigment on the nose, lips and eye rims. It is recessive to all other alleles in the E series. Homozygous (ee) alleles interferes with the expression of most Locus A alleles.

As-ee buckskin

Ay-ee light tan

Locus G pair: Progressive Graying

(g) uniform color throughout life

Research concludes that the AST breed are homozygous (gg) with dogs retaining their coloring throughout their lifetime. The G dominant allele present in other breeds produces a silvering or graying of the coat over time and the recessive (g) allele, giving a uniform color throughout the dogs lifetime.

Locus M Pair: Merle Pattern

(m) uniform pigment

Research has shown that our breed has only the recessive (m) allele at this locus. The homozygous recessive (mm) produces a uniform pigment in the breed. The (M) dominant allele produces the merle or dapple pattern. The dominant (M) allele has been identified in Collies, Shetland sheepdogs, Australian Shepherds, Cardigan Welsh Corgis, Great Danes, Louisiana Catalhoula, Spotted Leopard Dogs and Dachshunds.

Locus T Pair: Ticking

(t) no ticking

Research has shown that our breed has only the recessive allele (t) at this locus which in the homozygous recessive (tt) allows no ticking. The dark ticking that we see in our breed is determined on the Locus A series by the dominant (As) allele, not on the Locus T Pair. In some breeds this is known as a sable. In the APBT, traditionally this coloring is called black or brown ticked. There are modifier polygenes that control the location and extent of the black ticking in the breed. The dominant (T) allele at this locus causes the tiny flecks of pigmented hair in otherwise non pigmented (or white) areas. The T allele is typical in breeds such as the English setter and many of the hound breeds.

Locus S Series: White Pattern

The alleles of the Locus S series produce the white markings that are often seen in our breed. Researchers identify four alleles at this locus:

S solid color

si Irish spotting

sp piebald spotting

sw extreme piebald spotting

The above sequence reflects the decreasing areas of pigmented hairs. There is some question about the relative dominance of and interaction between the alleles in their heterozygous forms because the expression is complicated by modifier polygenes which affect all of the alleles. Our breed, which research shows carries all four of the alleles, show all ranges of white markings from solid colors to all white.

(S)- SOLID COLOR: The homozygous (S) alleles produce a solid colored coat. The modifiers will, on occasion, produce a small amount of white markings on the throat, chest, toes, abdomen and belly. (***KATE, INSERT DIAGRAM 1 HERE***)

(si) - IRISH SPOTTING PATTERN: This allele produces a pattern of white on the muzzle, forehead, chest, belly, feet and tail tip. The varying size of the white area is affected by the plus and minus modifiers. Breeds thought to be homozygous for this are the Boston Terrier, Basenjis and Collies. (***KATE, INSERT DIAGRAM 2 HERE***)

(sp) - PIEBALD SPOTTING PATTERN: This allele produces a widely varying areas of white. In the homozygous (spsp) genotype you would see a white dog with dark patches. (***KATE, INSERT DIAGRAM 3 HERE***)

(sw) - EXTREME PIEBALD SPOTTING PATTERN: This allele further decreases the pigmented area and, depending on the plus or minus modifiers, the pattern can range from solid white to white with spots on the ears, around the eyes, and in the tail area. (***KATE, INSERT DIAGRAM 4 HERE***)

GENOTYPE SUMMARY in the American Staffordshire Terrier:

Black As-D-E-

Blue As-ddE-

Black & Tan atatD-E-

Red AyD-E-

Fawn AyddE-

Brindle Ay-D-Ebr-

Blue Brindle Ay-B-ddEbr-

CONCLUSION:

Question # 1: In times past, the blue color was considered as rare in the breed. How are kennels now producing blue dogs in such great numbers?

The D Locus pair is the loci that modifies the dark Pigment pattern to blue with the homozygous recessive (dd) alleles. Because kennels are selecting blue individuals which are homozygous recessive (dd) the only allele that a blue parent can give to their offspring is the recessive (b) allele. Breeding two blues together doubles up the recessive trait to (dd) which modifies the dominant (As) allele to blue. If a resulting offspring happens to get the (Ay) allele from one of its parents, then the (dd) will modify this color to a fawn/bluies. If breeders are breeding dogs for the blue color, since the gene is homozygous recessive, 100% of their offspring will be (dd) and depending on the (As) or (Ay) allele on the Locus A series will have blue or fawn/bluies pups.

Question # 2: It is possible to produce a puppy with a black nose from two parents, both with red noses?

The red nose in our breed is produced from the Locus B pair with the homozygous recessive (bb) genotype in combination with the (Ay-) genotype. Mating two dogs with the genotype (bb) the result would be 100% of the pups having red noses (bb). If a pup with a black nose was produced in one of my litters where both parents had red noses, then DNA testing with parentage verification would be necessary to determine the actual sire to the black nose pup. New alleles can be produced through mutation, but proof of parentage would have to be determined using DNA to rule out a duel sired litter.

Question # 3: Where does the chocolate color come from?

The chocolate color comes from the Locus B pair with the homozyous recessive (bb) in combination with the (As) allele. The dilution gene (dd) will also modify this Dark Chocolate to a light or almost Milk Chocolate. In most cases, the nose color is also light brown or as we say 'chocolate/red nose'.

Question # 4: How did I produce a brindle from a line that has never had brindle dogs?

The Locus E Series (Ebr) allele causes the brindle color pattern when this dominant allele is present in combination with the (Ay) allele. The (Ebr) allele is dominant except in dogs with the (As) allele. In the case of the (As), the (Ebr) allele does not have a light pigment to work on, the brindle will remain hidden. In tracing a brindle dogs bloodline, somewhere in the generations you should see a brindle dog since the (Ebr) allele is dominant. Again, if this was my litter, I would ask for parentage verification using DNA to rule out a dual sired litter.

Amy Greenwood Burford B.S.

User Avatar

Wiki User

13y ago
This answer is:
User Avatar

Add your answer:

Earn +20 pts
Q: Types of pitbulls
Write your answer...
Submit
Still have questions?
magnify glass
imp
Related questions

How many pitbulls are there?

there are only two types of pitbulls, blue nose and red nose.


Do people eat pitbulls?

No people do not eat pitbulls if there is any eating involved it is pitbulls eating people.


What types of dogs have underbites?

greater Swiss mountain dog is the most common


Are thire resqu grfoups for pitbulls?

No people do not eat pitbulls if there is any eating involved it is pitbulls eating people.


When was UK Pitbulls born?

UK Pitbulls was born in 1971.


When was Trelawny Pitbulls created?

Trelawny Pitbulls was created in 2003.


Where online can one find images or pictures of pitbulls?

If you have a SPCA in your area, you could try contacting them as they have many different types of videos available to the public. You can also contact a friend or relative that has a pitbull to inquire whether or not they have any video of their pet. If you have access to a computer, there are many great websites dedicated to pitbulls that have many videos.


What is pitbulls habitat?

Pitbulls are domesticated dogs. There habitat is their owners homes.


Are pitbulls meaner than boxers?

PitBulls and Boxers are only as MEAN as their trainers.


How many pitbulls can chickens eat in an hour?

two trillion pitbulls including your mama...


Where are pitbulls aloud in Canada?

Pitbulls are not banned in Canada. There are several cities that have bylaws that ban or restrict pitbulls, but it is not across Canada, nor is it a criminal offense to own one. Only Ontario outright bans pitbulls.


Do pitbulls usually have big stomachs?

Pitbulls has a stomach acording to his size. The pitbulls will overeat if food is not stored until they are bloated. We carefull about that.