Morphs – Page 6 – SMR Archive

Cotton Candy Snow 2016

Cotton Candy Snow (aka: Cotton Candy Corn)

Most Commonly Used Name: Cotton Candy Snow
Mode of Genetic Inheritance: Recessive & Dominant
Morph Type: Mutation Compound ( Anery & Amel) + Dominant Red Mask Mutation (Strawberry?)

Eye color: RED pupils

The Cotton Candy Snows are part of the complex I call CORAL SNOWS. That is to say, when we cannot denote heritage to respective Salmon, Neon, Bubblegum, Cotton Candy or Champagne lines, we generically call them Coral Snows. Named by Graham Criglow for the first Cotton Candy Snow’s intensely pink coloration, which it largely lost when it was fully mature. He created that snake via crossing a South Mountain Reptiles Salmon Snow with a JMG Coral Snow.

Before describing Cotton Candy Snow Corns, first, a brief history of the Coral Snow.

Back in the 1980s when corn snake herpetoculture was in its infancy, Snow corns that had a pink or coral cast were called Coral Snows. Back then, Snow corns were not as variable in color as they are toDAY. At the time when pink/coral ones were dubbed Coral Snows, it was only common to see snows in two tones of white; crisp white (aka: bone white Snows), or Coral. Back then, prediction of the coral coloration was hit-or-miss (some would start out with a blush of pink, but mature to be white on white) so in the absence of genetic test data to explain the origin of the pink and/or coral colors, the name Coral became somewhat obscure from the hobby for many years. After that era, Jim Stelpflug at Southwest Wisconsin Reptiles was one of the first to predictably reproduce coral-colored Snows, and even though pinkish Snows were still seen in the hobby, Jim was reliably reproducing them–and was even able to intensify the coral coloration in most. At that time, we mistakenly believed the gene mutation responsible for pink or coral colored Snows was the result of Snow corns also possessing both copies of the Hypo A mutation. While some pink or coral colored Snows that were also Hypo mutants DID show a blush of pink, their pink cast rarely intensified to be remarkable in appearance, as is the case with Coral Snow Mutants of toDAY. Pink and Green Snows were not rare back then, and some of those demonstrated deeply saturated pink coloration. Again, the origin of that phenotype was (and to an extent, still is) poorly understood. In so much as most of the early Coral Snows originated from Jim Stelpflug at SWR (Southwest Wisconsin Reptiles), it appeared obvious that some mutation he had in his genetic inventory was causing his to be more colorful than others. The exaggerated pink/coral coloration is now believed by some to be the demonstration of the dominant-type mutation (Strawberry) that was also discovered/developed by Jim Stelpflug. This is believed to be THE color mutation responsible for the rich colors, if not ONE OF such mutations. I have not personally had reproductive results to validate this theory, and in a hobby that has so very many hidden mutations, perhaps Strawberry is just one of such mutations to cause such colors? Breeding trials are still ongoing toward discovering more about this interesting (if not mysterious) mutation. It is not mysterious in terms of inheritance, but in that some non-Strawberry corns can exhibit similar colors – without being Coral/Strawberry mutants. It is not a given that every corn snake displaying inordinate amounts of pink or coral is a Strawberry mutant, but so far, breeding trials between the three most notable Coral Snow types (Salmon, Champagne, and Neon) have demonstrated that they are all at least elementally allelic (breeding any combintion of the three morphs renders Snow corns that have extreme saturation of pink, coral, or both). Hence, there may be other gene mutations or gene modifiers involved in one or all of those morphs, but they at least share the same mutational foundation that causes them to look remarkably pink/coral – unlike classic white-on-white Snows.

The general conclusion in the corn snake industry at this time is that any Snow corn that is also a Strawberry Mutant (thereby exhibiting a color predominance of pink and/or coral) is a Coral Snow. Any additional refrence to familial origins (i.e. Salmon, Champagne, or Neon) is merely a lineage descriptor that may prove valuable if and when it is determined that one or more of those bloodlines actually possesses additional mutations, or strongly influencing polygenic traits.

Therefore, here at SMR, we consider any Snow (or ghost) that exhibits exaggerated/remarkable pink or coral colors to be one of several different family lines of the general group we call CORAL SNOWS. Below are those popular lines;

Salmon
Champagne
Neon (a refinement of Lloyd Lemke’s Bubblegum Snow)
Cotton Candy (essentially a Salmon Snow)

Pairing any two of these popular lines (and other similar lines) will render snows that demonstrate exaggeration of the pink or coral colors. Instead of Strawberry (because enough evidence points to more than one gene causing this coloration) we generally call the gene Red Mask or Red Factor. Therefore, you could call any of these lines simply, Coral Snows.

What to expect:

As hatchlings, any CORAL-type Snow corn exhibits some degree of pink or coral (compared to snows without the gene mutation being just two shades of white). Throughout ontogeny (maturity) all corns dramatically change from usually drab coloration to spectacular coloration. Even if a Coral-type Snow only has a little of the pink or coral expression as a hatchling, it’s guaranteed that such colors will be at least doubled in color saturation and intensity.

Some will demonstrate extremely saturated pink or coral as hatchlings. Those individuals also super-saturate colors through maturity and are guaranteed to be more colorful than average Coral-type Snows. The scheme of colors is highly variable from Coral markings on a barely pink ground color, Pink on Coral, Coral on white, Coral markings with greenish margins-on a white ground zone, greenish ground coloration with pink markings, some of which are bounded by white blotch margins, and every conceivable and inconceivable combinations thereof. It is generally expected that several genes comprise the variety of pink/coral color schemes demonstrated in Coral Snow-types toDAY.

SUPER SALMON/CORAL SNOWS have both copies of the Red Mask gene mutation, making them much more colorful than standard Coral Snows. I estimate Super Form Coral/Salmon Snows to have easily twice the color intensity as their Visual Het counterparts (advertised as Coral Snows). Expect Super Corals to be much more colorful as hatchlings and exponentially more-so as adults. They’re not twice the price of the generic Coral Snows for no reason. They’re twice the snake.

The snake on the left (pictured on dirt) is the same snake that’s in the second picture (larger of those two). These two pics feature the same famous Cotton Candy corn that Graham Criglow produced a couple of years ago, at two different ages. The small one in the second picture is a 2014 Salmon Snow we produced, understandably similar since the Cotton Candy originated from SMR Coral stock. .

I spoke to Graham before publishing these pictures, and he agreed it was a necessary demonstration of how they change with maturity. Many of our most colorful corn snake mutations have what we call a COLOR PRIME age, where, for about a year, they look as good as they will ever look. That age is what we’d relatively call teen-age, as evidenced here with just one year of maturity between the above picture on the left and the above picture on the right. With Coral types, after their color-prime phase, the deep pinks tend to give way to a more orange coloration. Still beautiful mutants, their color potential has much to offer compounds with other color and pattern mutations of corn snakes.

Posted on January 17, 2021January 17, 2021Categories Morphs

Extreme Reverse Okeetee 2016

Extreme Reverse Okeetee (aka: Amel Okeetee, Albino Okeetee, Amel Buckskin Okeetee)

Most Commonly Used Name: Extreme Reverse Okeetee
Mode of Genetic Inheritance: Recessive + Selective Variation

Morph Type: Selective variant of single recessive mutation

Eye Color: Red pupils

Extreme Reverse Okeetees are variants of the basic Amel Mutation, but with the polygenic impact from the Buckskin Okeetees. Therefore, their only visual distinction from Amel corns is their polygenetic color and pattern scheme. Genetically speaking, like their cousins, Extreme Reverse Okeetees, are Amel corns that have been selectively bred to promote their target look (Highly saturated blotch colors, separated from clean and unspeckled ground coloration by prominent white blotch margins). Red or orange markings are not difficult to reproduce through generational line breeding, but the quality and size of the white blotch margins is often difficult to achieve, and sometimes difficult to maintain through subsequent generations. Note that the ground color zones of Extreme Reverse Okeetees run toward yellow, relative to their Reverse Okeetee cousins. The degree of color purity in the orange background and red (or orange) markings have been enhanced via polygenetic traits, modified through selective promotion of only the best target phenotypes. Some will exhibit color “clutter” in these zones, but a distinction between Reverse Okeetees and most Amel corns should be a dramatic reduction in color “noise” — rendering richer colors of blotch and ground color zones. The blotch margins are often very wide, compared to most Okeetee and Amel Okeetee types.

What to expect:

Reverse Okeetees are one of the few corn snake mutations that change very little between neonate and adult, so expect some deeper color saturation throughout maturity. The often “neutrally colored” blotch margins turn bright white throughout maturity. I don’t recall ever seeing one that was completely devoid of color litter in the pattern and ground zones, but we’re getting closer to that with each generation. Some of the hatchlings displaying orange markings mature to have redder markings, and some of those starting with red markings change to orange, but approximately 75% of all our red ones stay red, and about the same percentage of the orange marked ones stay orange.

Two Extreme Reverse Okeetees (Amel Extreme Buckskin Okeetees) pictured with a Buckskin Okeetee sibling on 06/10/13.

SURPLUS section of this web site). We do not provide pictures of individual hatchling snakes for sale, nor do we recommend that you ever choose a new pet based on an image of its neonatal form. Corns change so dramatically from hatchling to adult, they will NEVER have the same colors or contrasts throughout maturity.While most of the snakes we produce will mature to resemble the featured adult image(s) on our web site, unlike manufactured products that are respectively clones of each other, the nature of polygenic variation results in each animal being similar but not identical to others of its morph. The snake we select for you may not mature to be identical to the pictured examples, but will be chosen based on our experience of observing which neonates will mature to properly represent their respective morph. We take this responsibility very seriously, and therefore publish the guarantee that we will exchange your SMR snake if it does not mature to be like our advertised examples.

Cayenne Fire – 2016

Cayenne Fire (aka: Red MaskAmel Bloodred )

Most Commonly Used Name: Cayenne Fire
Mode of Genetic Inheritance: Recessive
Morph Type: Mutation Compound (Amel + Diffused + Red Mask)

Eye Color: RED pupils

Go to History for more details about the DIFFUSED / BLOODRED base mutation of this compound morph.

This compound morph results from combining the color mutation, Amel with the pattern mutation Diffused and the new Red Factor mutation. As with most morph compounds that include the Diffused mutation, the Fire mutation‘s color affect is generally more diffused than a typical Amel corn, but nothing compared to Cayenne Fire mutants that possess the additional Red Factor mutation. Except for some of the color and pattern variants of this mutation compound, Fires arguably have much less color contrast than typical Amels and generally redder coloration. Essentially, the difference between a Cayenne Fire and a Fire would be less yellow (therefore orange), rendering a red on red albino corn snake. Expect dramatically reduced white margins, compared to most non-pattern Amel type mutants.

The snake pictured was posed on a U.S. one-dollar-bill for color reference.

What to expect:
Many Fire hatchlings look like little more than some Amel Corns, but the head should have some form of Bloodred head pattern, and the belly will be devoid of classic Amel Corn snake white & off-white checkering. The belly pattern can have colors – and even pattern – but not organized checkering. From a short distance, adults appear to be completely red or red/orange, but upon closer examination, most have a faint blotch pattern, and some will have minute traces of white on the scales around the posterior-most dorsal markings.

Fire – 2016

Fire (aka: Amel Bloodred, Amel blood, Diffused Amel )

Most Commonly Used Name: Fire
Mode of Genetic Inheritance: Recessive
Morph Type: Mutation Compound (Amel + Diffused)

Eye Color: Red pupil

Go to History for more details about the DIFFUSED / BLOODRED base mutation of this compound morph.

This compound morph results from combining the color mutation, Amel with the pattern mutation Diffused. As with most morph compounds that include the Diffused mutation, the Fire mutation‘s color affect is generally more diffused than a typical Amel corn, but nothing compared to Cayenne Fire mutants that possess the additional Red Mask mutation. Except for some of the color and pattern variants of this mutation compound, Fires arguably have much less color contrast than typical Amels and generally redder coloration. Expect dramatically reduced white margins, compared to most non-pattern Amel type mutants.

What to expect:
Many Fire hatchlings look like little more than regular Amel Corns, but the head should have some form of Bloodred head pattern, and the belly will be devoid of classic Amel Corn snake white & off-white checkering. The belly pattern can have colors – and even pattern – but not organized checkering. From a short distance, adults appear to be completely red or red/orange, but upon closer examination, most have a faint blotch pattern, and some will have minute traces of white on the scales around the posterior-most dorsal markings.

Honey Motley-2016

Honey Motley (no aka)
Most Commonly Used Name: Honey Motley
Mode of Genetic Inheritance: Recessive
Morph Type: Single Recessive Mutations of Sunkissed and Caramel

Eye Color: Black pupil & body ground colored iris

Most Honey corns are aptly named for their namesake with overal coloration resembling bee honey. Combining Sunkissed (the second hypomelanistic mutation to be discovered) with Caramel, Honey corns have soft and beautiful colors. Review SUNKISSED corns for more information about the distinguishing mutation that makes Honey Corns so appealing. Some features the Honey inherits from the Sunkissed mutant side of its family tree include:

Generally grouchy demeanor toward humans.
Head pattern that is odd and atypical for being a corn snake.
Often elongated markings that are sometimes spaced farther apart than most corns.
Atypical belly pattern; usually less than most corns and spaced sometimes oddly and not in the classic checkerboard pattern of most corns. Breeding Sunkissed (and therefore Honey) mutants to other corn snake mutations and morphs often promotes aberrant pattern from the SK or HO mutants of such pairings. Many SK and HO Motleys have considerably more belly markings, which is atypical since classic Motley mutants seldom have a single belly marking.

Enough of the odd characteristics of these beautiful mutants. If there is one negative stigma attached to this mutation, it’s surely the potential that the one you get may have a genetic defect sometimes called “star-gazer’s disorder”. The is called a lethal mutation since effects of the muation are not advantageous to the homozygote. Star-gazer’s causes the snake to have limited or aberrant control over balance. Similar neural disorders have been demonstrated in many animal species, and sometimes the cuase is viral. Also, the neural symptoms of this mutation parallel that of animals with certain parasites that retard balance control. Star-gazer’s in corn snakes it not a contagious disease or pathogen, so the only way your snake’s will get it is through genetics. It is inherited recessively, so some people that swear it is not lurking in the genes of their snakes, cannot really be certain of that – without controlled breeding trials. Only by breeding a suspect corn to a star-gazer homozygote or heterozygote can one determine the presence of the gene. Ideally, if you have any corns that MAY have this genetic mutation, you should breed it to a known homozygote. Even that is not proof positive, given that you must have at least 20 progeny (of which 100% are not afflicted with the disorder) in order to be reasonably assured that it’s not in your snake’s genome. This SG mutation was discovered in Sunkissed mutants, but it is not linked to the Sunkissed mutation. It has been reported in several other non-Sunkissed corns (mutant or not). Hence, if you discover you have a star-gazer mutant, it is recommended that you restrict it’s genes to creating “control” snakes that can be used by others to determine the presence or absence of the lethal gene in their snakes. Even though it is not transmitted like a viral pathogen, the danger of the gene inflicting many other breeding lines of snakes is likely and potentially disastrous, in the absence of breeding trials. Such trials are under way here at SMR (and with many breeders) and if/when we determine that any of our snakes are carriers of this lethal gene, they will be euthanized. BTW, if you think you’re safe because you have been breeding sunkissed corns (or any other corn snake type) for over four generations without seeing any homozygotes of the disorder, think again. If your first Sunkissed corn (or Okeetee or other type) was het for this mutation, it could take many generations for you to make the discovery. Since each snake hands one copy of its’ genotype to each of its’ progeny, potentially half of each generation could be heterozygotes. If you (or your customers) continually bred those heterozygotes to non genetic cariers of the mutation, only part of their progeny would inherit one copy of the mutation. If you were lucky in not seeing any sign of the gene in over four generations (or potentially unlucky, in this case), it does not follow that none of your snakes are carrying a copy of the gene. Until you pair two of them with a copy of the gene, it will continue to hide in the family tree. Several years ago, I bought three female Okeetees from a breeder that is now out of the corn snake trade/hobby. They were sold as being het for Sunkissed. I bred one of the females to one of my best Extreme Okeetees and sold the babies as Okeetees. Two years later, a customer called me to ask why some of the Okeetee babies she produced from the pair of Okeetees she got from me were doing the loopy, corkscrew locomotive thing. Because I had never produced a star-gazer homozygote, I naively ruled that out, but upon reviewing acquisition records, I identified that the parents of her mutants were the Okeetees het for Sunkissed. I immediately tracked down the other two customers who had purchased some of those, advising them that those snakes could be carriers of the lethal gene. I then euthanized the three adult female Okeetees I purchased from the other breeder. This lethal gene could be in hundreds or thousands of corns right now, and they don’t have to be Sunkissed corns. Hence, if you ever discover that you have the gene, advise all customers that purchased its progeny, and if you’re not going to use the carriers for producing TEST snakes for others, I recommend that you humanely euthanize them. By essentially eliminating them from the gene pool, you have take an important step toward eliminating this horrible gene.

Mixing the Sunkissed mutation with other color mutations and with pattern mutants is never disappointing. Except for the grouchy demeanor, I don’t recall seeing a single Sunkissed or Honey mutation compound I didn’t like. I know you’ll have fun mixing and matching them with other corn snake mutations and morphs.

What to expect:

As neonates, they are fairly colorful and most of them keep and intensify that honey coloration. Some of mine actually appear to be greenish-gold in overall coloration. Some of the blotch marginal pattern only covers half of one scale each, rendering the vision of faint or pixelated pattern outlines outlines. The head pattern on most is difficult to explain, so we’ll just say it’s “un-cornly” – but tasteful. Most breeders hesitate to mention the scratch on the side of the new car you’re buying, but the only thing most Sunkissed and Honey mutants have in common (other than their beauty and genetic potential when bred to other mutants) is their low regard for human beings. We have a couple here that are predictable and “human friendly”, but fewer of the Honeys are that way – compared to their Sunkissed mutant counterparts. I see that trait somewhat diluted when we outcross them to other mutants, but it would be wrong not to warn you that most Sunkissed-type corns are not the pets you’d freely hand to the children.

Important Note:
These images are not renderings of the actual animals being offered, (except for uniquely offered snakes found in the SURPLUS section of this web site). We do not provide pictures of individual hatchling snakes for sale, nor do we recommend that you ever choose a new pet based on an image of its neonatal form. Corns change so dramatically from hatchling to adult, they will NEVER have the same colors or contrasts throughout maturity. While most of the snakes we produce will mature to resemble the featured adult image(s) on our web site, unlike manufactured products that are respectively clones of each other, the nature of polygenic variation results in each animal being similar but not identical to others of its morph. The snake we select for you may not mature to be identical to the pictured examples, but will be chosen based on our experience of observing which neonates will mature to properly represent their respective morph. We take this responsibility very seriously, and therefore publish the guarantee that we will exchange your SMR snake if it does not mature to be like our advertised examples.

Super Sunglow Motley 2016

Sunglow Motley (aka: Sun Motley)

Most Commonly Used Name: Sunglow Motley
Mode of Genetic Inheritance: Recessive + Selective Variant

Morph Type: Selective Variant of Recessive Compound (Amel + Motley)

Eye Color: RED pupil

Many generations were spent in refining the beauty of the Sunglow Motley, but when we first introduced this mutation compound back in the 1990s, we didn’t realize what made Sun Motleys so much more colorful than all other Amel Motleys in the hobby. At first, we believed that they owed their deeply colorful distinction to only two mutations; Amel and Motley and that they have been selectively-bred toward the goal of deeply saturated red coloration and classically orderly Motley pattern. For years, we were helpless to explain why the colors in this line were so deeply saturated and why they were redder than other genetic lines. In 2009, one of our friends that wondered the same thing–and conducted breeding trials to determine what caused the intense colors–came to the conclusion that SMR Sunglow Motleys possess the added mutation of what is sometimes referred to as Red Mask or Red Factor. It is thought to be inherited in dominant fashion.

If an animal receives just one DNA copy of mutation that is dominant to wild-type, it usually demonstrates a degree of that mutation; in this case, enhanced overall red/orange coloration that is much more pronounced than Amel Motleys without one (or both) copies of the Red Mask mutation. These are called Visual Hets and that’s what 95% of all the Sun Motleys we’ve sold over the past two decades have been. Then, in the second successive familial generation, (F²) some of the progeny have essentially twice the color saturation as the others. Those are homozygotes (sometimes referred to as the SUPER FORM of the mutation) and we’ve only recently recognized those. Therefore, whether the SMR Sun Motley you acquire is a Visual Het or a Super Form, expect deeply red/orange coloration with few (if any) white scales showing.

Comparison of classic Sunglow Motley (left) and Super Sunglow Motley (right). One has less red because it is considered a VISUAL HET with only one of the paired gene copies of Red Factor, while the redder of the two demonstrates that is is a homozygote, having both of the paired RF gene copies.

Some people mistakenly think that if a Motley has orderly and consistent circles down the back (as most Sun Motleys do), it’s a Hurricane Motley. Below is a demonstration of distinction between a Hurricane Amel Motley and a Sunglow Motley.

hurricane112e-300

What to expect:

Sunglow Motley are one of a handful of corn snake morphs that change their appearance very little from hatchling to adult. Expect neonate Sunglow Motleys AND Super Sunglow Motleys to be intensely colored, and though the color transition from neonate to adult is fractionally that of other mutations, some saturation of color will occur through maturation.

Sunglow Motley 2016

Sunglow Motley (aka: Sun Motley)

Most Commonly Used Name: Sunglow Motley
Mode of Genetic Inheritance: Recessive + Selective Variant

Morph Type: Selective Variant of Recessive Compound (Amel + Motley)

Eye Color: RED pupil

If an animal that is dominant to wild-type receives just one DNA copy of mutation, it usually demonstrates a degree of that mutation; in this case, enhanced overall red/orange coloration that is much more pronounced than Amel Motleys without one (or both) copies of the Red Mask mutation. These are called Visual Hets and that’s what 95% of all the Sun Motleys we’ve sold over the past two decades have been. Then, in the second successive familial generation, (F²) some of the progeny have essentially twice the color saturation as the others. Those are homozygotes (sometimes referred to as the SUPER FORM of the mutation) and we’ve only recently recognized those. Therefore, whether the SMR Sun Motley you acquire is a Visual Het or a Super Form, expect deeply red/orange coloration with few (if any) white scales showing.

hurricane112e-300

What to expect:

Sunglow Motley are one of a handful of corn snake morphs that change their appearance very little from hatchling to adult. Expect neonate Sunglow Motleys to be intensely colored, and though the color transition from neonate to adult is fractionally that of other mutations, some saturation of color will occur through maturation.

Scaleless 2016

Scaleless (no aka)

Most Commonly Used Name: Scaleless
Mode of Genetic Inheritance: Recessive

Morph Type: Single Mutant

Eye Color: Black pupil (some red-eyed ones are also available for higher prices)

The price for males AND females begin at $550.00 each if no other genes are possessed. More will be offered for sale when the 2017s hatch next year.

These snakes are Scaleless Homozygotes. ACTUALLY, they are inter-species hybrids. ALL Scaleless corns in the hobby toDAY (including SCALED corns that are carriers of the Scale-less mutation–aka Het Scaleless) are descendants of the original pairing of a Corn Snake to an Emory’s Ratsnake (aka: Great Plains Ratsnake) and are therefore technically inter-species hybrids. While these base prices apply to Scaleless corns that are not known to be het for any other mutations, we DO offer some Scaleless corns that are either already other colors or possess one gene copy of a color or pattern mutation (they are HETerozygous for something in addition to being HOMOzygous Scaleless).

Pictured here are both regular (common-colored) Scaleless and Scaleless Caramels. Caramels have a higher retail value and are listed elsewhere on our web site under SNAKES FOR SALE.

Hybrid History Of Scaleless Corns:

In 2012, we were fortunate to acquire several different color and pattern morphs of Scaleless Corns from Stephane Rosselle in France. He has many dozens of different color and pattern variants of this unique mutation.Just as seed-less grapes are not really devoid of seeds (they are simply small seeds), scale-less corns have SOME scales. The entire bellies of most are classically or partially scaled, and random fragments of scale patterns are seen in varying degrees elsewhere on their bodies, from one individual to another. I hear comments like, “eeeeyewww, the face looks freaky” or “why are the eyes so disproportionately large?”. The eyes are not disproportionately large per body size, but in the absence of scales around them, a super-protruding appearance results. Of course, no two biological forms are precisely identical, but add to that the color and pattern variability and the infrequent scale placements and Scaleless Corns take “no two alike” to a whole new level. Exactly where there are a few scales on their body renders a veritable unique fingerprint for each individual snake. Regardless of how many and where scales are sparsely located, the predominant lack of scales results in a more deeply-saturated color exhibition. Who knew that the armor (scales) of serpents actually rendered a dilution of their here-to-fore unseen color brilliance? Few corn snake mutations are capable of altering mutation and morph compounds as dramatically as the Scaleless mutation. Have fun mixing and matching myriad color and pattern potentials with this new and variable mutation.

The originator of the Scaleless mutants in France (Richard Dijoux) https://www.colubiasnakes.fr indicates on his web site that they originate from pairing an Emory’s (Great Plains) Rat Snake with a Corn Snake. Hence, ALL Scaleless corns in the hobby toDAY are technically inter-species hybrid mutants (though 1st cousin species).

Inter-species Hybrids: The first Scaleless snake closely related to a corn–AND the patriarch of all Scaleless “corns” toDAY–was the result of pairing a WHEAT (what some Europeans call the Emory’s/Great Plains Rat Snake) to a CORN Snake. The owner of those snakes reported that only one Scaleless snake hatched from that marriage; THE patriarch of all Scaleless corns toDAY. Therefore, beginning with the F1 generation–and all subsequent generations since–at the time of this writing, all Scaleless corns toDAY have Emory’s Rat Snake genes in them (one DAY the scale-less mutation will be demonstrated in pure corns, as with ALL reptile species on this planet). Of course, either via polygenetics , gene mutations or both, just like all dogs toDAY are selective variants of wolves (therefore, all dogs technically ARE wolves), after a few generations of breeding these Scaleless “hybrids” solely to corn snakes, less and progressively less of their ancestral phenotype will be visually evident. A parallel is that the Dachshund genetically IS a modern wolf variant, but when you look at such a modern dog, do you see ANY resemblance to a wolf? Polygenetics and mutations have distinguished Dachshunds from other dog breeds and their wolf ancestors. Other inter-species hybrids in our hobby toDAY include (but are surely not be limited to) Creamsicles and Ultra/Ultramels.

If you seek a visual (aka: homozygote) Scaleless, this is not the morph you want. This listed product (Het for Scaleless corns) will look like a typical wild corn snake, but are carrying one copy of the gene mutation that will render Scaleless mutants if bred to another corn snake with one or both DNA copies of the Gene Mutation. The snake you will be ordering will look similar to a wild-caught common corn snake. Corns het for Scaleless and other color and pattern mutations will be offered elsewhere on our web site. They will be priced according to the market value of the mutations they carry.

Blue Motley – aka: Dilute Anery Motley 2013

Blue Motley (aka: Dilute Anery Motley)
Most Commonly Used Name: Blue Motley
Mode of Genetic Inheritance: Recessive

Type: Triple Mutation Compound (Dilute + Anery + Motley)

Eye Color: Black pupil & body ground colored iris (usually silver or pale blue)

Combining the three recessive gene mutations; Anery, Dilute, and Motley result in a beautiful compound most commonly referred to as the Blue Motley. The genetic impact of the Dilute mutation is similar to the Blue Merle Collie and Shetland Sheep dogs – a softening of black – usually resulting in pleasing pale blue or silver colors. Typically, the Anery and Dilute color mutations do not noticeably affect the Motley pattern mutation, but Motley virtually always improves corn snake colors.

What to expect:

Some Blue Motleys could be mistaken for Pastel Motley (aka: Ghost Motley) and I have seen some that resembled Lavender Motleys. Not unlike Pastel Motleys, males are usually distinguishable from females by having more “earth tones” in their markings, ground color zones, and sometimes both. Virtually all females lack this added color shade, remaining pale blue as adults. Females with the earth tones are uncommon, but in the future of adding other color and pattern mutations to this morph, we’re sure to see alteration of overall coloration. BTW, the pattern mutation, Motley virtually always alters color and markings – if only slightly. Patterns are often less distinct and colors are sometimes slighted softened in Motley mutants – compared to non-Motley Dilutes – but melanin is reduced.

Lavender 2015

Lavender (no aka)
Most Commonly Used Name: Lavender
Mode of Genetic Inheritance: Recessive
Morph Type: Single Recessive Mutation

Eye Color: Red pupil & body ground colored iris (see details below about some having black pupils)

There are several distinct features among Lavender mutants of any variety. One baffling characteristic common in the Lavender mutation is that most of them have eye pupils that are some shade of pink – virtually identical to most albino (Amel) corn snakes. Nobody yet knows why but some have black pupils. Another feature in most Lavender corns is that virtually all of them hatch smaller in size than any other corn snake mutation. What they lack in hatchling size they make up for in appetite. Not so much that they are ravenous feeders (they actually ARE), but collectively relative to all other corn snake mutations, Lavenders statistically favor pinky mice more than any other corns we produce. Our adult Lavender types are essentially the same size as other corn snake morphs, even though they start out so tiny. Many lavenders resemble Ghost corn snakes, as babies and adults.

What to expect:

Most hatchlings are some shade of pale lavender or gray, and as detailed above, they are the tiniest hatchlings in the corn snake hobby. Some have peach tones between markings, while some have pale and are lacking in contrast between markings and ground color zones. Through maturity, most will keep their basic neonate coloration, but unlike most corns whose colors become more saturated with age, Lavender types almost always lost color saturation through maturity. It is difficult to discern between basic lavenders and Hypo Lavenders, since there is a distinct lack of melanin in both. Most have red pupils, but for genetic reasons we don’t yet understand, some have black pupils. I’ve seen other morphs that were virtually identical to most adult lavenders, so distinguishing between them is not easy without a genetic family history. Unless Lavenders are bi-colored (having a peach or coral ground color between dorsal markings), they are highly variable in color. Expect everything from pale gray to lavender.