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Striped Champagne 010713

DAY010713a

#010713

Striped Champagne

Male

d.o.h. 2010
35″ long on Jan. 4, 2013

$150.00 shipped

Comments: Superior color and size maturity. Small dorso-lateral scale damage (re: boo boo shown in pic blow-up).

Description of Striped Champagne Snow Corns

Striped Champagne Snow (no aka)
Most Commonly Used Name: Striped Champagne Snow
Mode of Genetic Inheritance: Recessive & Dominant
Morph Type: Mutation Compound ( Anery & Amel) + Dominant Coral Mutation (?Strawberry?)

Before describing Champagne Corns, first, a brief history on 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. Early in Corn Snake Herpetoculture, 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-and-miss (some would start out with a blush of pink, but turn white on white) so in the absence of genetic 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 that also possessed 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 in 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.

What to expect:

Champagne snows are thought to owe their general pink/coral coloration to a form of dominant mutation we categorically call CORAL, but breeding trials are ongoing to explain other mutations and/or polygenic traits render the finished product. The actual gene thought to influence the pink/coral coloration is the Strawberry Mutation, explained in the paragraph above. I use the name CHAMPAGNE SNOW and STRIPED CHAMPAGNE SNOW interchangeably because the original Champagne Snows were also Striped-type mutants. Since what causes them to have the color they do is actually the same gene as what causes other Coral-type Snows (Neons, Salmons, etc.) I only use the name Champagne when referring to the Striped-type pattern snow mutants. I say “striped-type” because a characteristic of MOST Champagne Snow mutants at this time is the somewhat unrecognizable Striped/Motley type pattern. It is often difficult to tell if the pattern is Stripe or Striped Motley. Usually, they display a bit of both. Hence, Striped Champagne Snows may sometimes actually be Striped Motley Champagne Snows. I have had limited success in cleaning up the pattern in this morph – to render classic stripes – but they’re virtually always broken up by “tweener” markings (markings that are neither wild-type, Striped, or Motley). Often the “tweener” markings take the form of ovals, rectangles, bowties, and so on. Like virtually all Snow corns, expect carotenoid yellow to manifest throughout maturity.

Creamsicle – 01-16-13

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toDAY’s SNAKE of the DAY (Sat.,Jan. 16, 2013)

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#011613

33″ long on Jan. 15, 2013

Creamsicle

Female

d.o.h. 2011

$100.00 shipped

Comments: Feeding on frozen/thawed hopper mice.

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INTERSPECIES HYBRID !

Creamsicle (no aka)

Most Commonly Used Name: Creamsicle

Mode of Genetic Inheritance: Recessive corn snake Amel + Emory’s Rat Snake

Morph Type: Single recessive HYBRID Mutation

Eye Color: Red pupil

Formerly considered an intergrade of what used to be two corn snake subspecies (Elaphe guttatus guttatus X Elaphe guttatus emoryi), Creamsicles are the final product of crossing an Emory’s Rat (aka: Great Plains Rat Snake) with an Amel corn. Since the new taxonomic classification assigns distinct species to each (Pantherophis emoryi and Pantherophis guttatus), in herpetocultural vernacular, Creamsicles are now officially considered hybrids. ANY progenyfrom Creamsicles or any corn snake that has any degree of Emory’s Rat Snake in it, is considered a HYBRID. The albinos are called Creamsicles and the non-albinos are often called Root Beers.

What to expect:

Hatchling Creamsicles are orange hybrid versions of Amel corns, so they can have any pattern you see in corn snakes. I’ve seen Creamsicles that were yellow on yellow, some that were orange on orange, and some that were red on orange – demonstrating the polygenic variability seen in all animals. Not unlike some hybrid snakes that can be selectively bred to eventually hide all visual traces of their alien ancestor, some Creamsicles are virtually identical to Amel corns. Creamsicles (and Root Beers) usually have what we call Hybrid Vigor (robust size and propensities for hardy appetites and rapid growth) from being out-crossed to unrelated snakes. We all hope that breeders will always reveal the genetic background of all their snakes, but I know people that have purchased obvious Creamsicles in pet stores and reptile expos, but were never advised of their hybrid origins.

Important Note:

These images are not renderings of the actual animals being offered, (except for uniquely offered snakes found in the SURPLUSsection 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 yourSMR snake if it does not mature to be like our advertised examples.

Motley 123012

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ToDAY’s SNAKE of the DAY (Sun, Dec. 30, 2012)

#123012

Motley Corn from Salmon Snow Motley parentage

Male

d.o.h. 2011

35″ long on December 29, 2012

$125.00 shipped

More about Motley corn Snakes

Motley (no aka)
Mode of Genetic Inheritance: Recessive

Morph Type: Single Recessive Mutation

Most Commonly Used Name: Motley

Eye Color: Black pupil & body ground colored iris

The first description of this corn snake pattern mutation was published by the late Dr. H. Bernard Bechtel in the 1980s. His breeding trials demonstrated the heritability of this mutation to be simple recessive. The distinguishing feature of those is belly checkering. Good Motleys have an orderly and contiguous pattern of spots down the dorsum that represent spaces in what appears to be a continuous, wide stripe of color running from the neck tail-ward. The size, shape, location, organization, and number of circular pattern interruptions on the back define the grade of individuals, but until recently, the one pattern distinction we could rely upon was that of having no checkers on their belly. Lately, we’re seeing Motleys with some black checkering, but it’s random and sparse. I suspect that one DAY we’ll see Motleys with quite a bit of belly checkering. In fact, certain genetic compounds of Motley have somewhat reliable belly markings (i.e. Sunglow Motley and Lavender Motley).

What to expect:

Thankfully, there is little change (if any) in the markings from hatchling to adult, but one characteristic impossible not to notice is that of diffusion of pattern and color throughout maturity. This essentially does change the pattern appearance, and it certainly does have interesting impacts on color compounds of Motley. Not unlike the “Diffused” mutation (aka: Bloodred) that diffuses color and pattern, Motleys virtually always enhance any other color or pattern mutation with which they have genetic union. Do not expect contiguous and orderly dorsal patterning, as Motleys with the best patterns are still in a minority in this morph. BTW, they are rare, but some non-mutant corns have dorsal pattern that is very similar to Motleys, but still a dependable distinguishing feature is the belly. If a Motley-looking corn has a busily checkered belly, it should not be a Motley mutant.

Important Note:
The advertising images on our web site are representations of the average adult example of each morph. 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.

Lava Het Terrazzo 01-17-13

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toDAY’s SNAKE of the DAY (Thu. Jan. 17, 2013)

#011713

Lava Het Terrazzo

Male

d.o.h. 2011

27″ long on Jan. 16, 2013

$250.00 shipping

The parents of this 2011 male Lava Het Terrazzo are Lava Het Terrazzo bred to a Lava Terrazzo. Until fully grown, they retain their slim Terrazzo body conformation, but will mature to be as large and robust as any corn mutation.

Details about Lava Corn Snakes

Details about Terrazzo Corn Snakes

Tessera 12-31-12

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toDAY’s SNAKE of the DAY (Mon., Dec. 31, 2012)

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#123112

Tessera Het Sunkissed

Female

d.o.h. 2011
28″ long on Dec. 29, 2012

$600.00 shipped

Comments: Het for Sunkised.

Sunglow 010113

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ToDAY’s SNAKE of the DAY (Tue. Jan. 01, 2013)

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#010113

Sunglow from Red Mask parent

Male

d.o.h. 2011
27″ long on Dec. 29, 2012

$125.00 shipped

More information about Sunglow Corn Snakes

In addition to being a stunning example of the Sunglow Morph, this 27″ male from 2011 was sired by a Red Mask Motley corn. At this time, we believe the effects of the Red Mask mutation are dominant to wild-type – in the realm of inheritance. This one already demonstrates an exaggeration of red in both the markings and ground color zones. If he did not inherit the Red Mask trait, he promises to be a shockingly beautiful adult male.

Sunglow (no aka)
Most Commonly Used Name: Sunglow
Mode of Genetic Inheritance: Recessive + Selective Variant

Morph Type: Single Recessive Mutation

Eye Color: Red pupil

Sunglow corn snakes are the products of selectively breeding Amel corns toward the goal of intensifying the red/orange coloration and eliminating the white blotch borders. Most have some white scales, but are generally two shades of the Amel color theme.

What to expect:

As hatchlings, they essentially appear to be typical Amel corns, with the exception of having little or no white on the borders between blotches and ground color zones. Some Sunglow corns actually lose some of that white through maturation. While we do not guarantee the extra gene mutation, we began our Sunglow line with Hypo corns, since our Hypos have such little black margins around the markings (which of course, translated to low white volume around the blotches of the Amel mutants in the line). Expect deeply saturated orange coloration and very little (if any) white scales between markings and ground color zones.

Striped Hypo Bloodred 03-12-13

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toDAY’s SNAKE of the DAY (Tue. Mar. 12, 2013)

#031213

Striped Hypo Bloodred

Female

d.o.h. 2011
33″ long on Jan. 20, 2013

$250.00 shipped

Comments: Superior color and scarcity in the market.

Striped Hypo Bloodred (no aka other than exchange of word order)

Note: Expect DIFFUSED and BLOODRED to be incorrectly but synonymously used

Most Commonly used Name: Bloodred

Mode of Genetic Inheritance: Selective Variation + Recessive
Morph Type: Selective variantion of four recessive mutations

Eye Color: Black pupil & body ground colored iris

FIRST, about Bloodred vs. Diffused:
A few years ago, due to confusion regarding the heritability of the Bloodred’s base mutation (specifically that the namesake snakes were not red and/or diffused), the base mutation name was changed away from Bloodred – toDiffused. The mechanics of this gene mutation barely diffuse the F¹ homozygotes through maturity (if at all), so do not expect Diffused corns to look like Bloodreds. It is currently believed that Bloodred corns are the product of enhancing the base mutation, Diffused via polygenetic trait modification (selective breeding) to render a red and almost pattern-less (highly diffused) corn snake. That is not the opinion of this author, but in the absence of empirical evidence to the contrary, the best hobby and market interests are not served by published opposition to popular opinion. In other words, I’m not in favor of changing the morph name away from the original Bloodred since the new name Diffused is equally inaccurate. Without polygenetic modification, Diffused corns do not have a diffused appearance.

A brief history on Diffused mutants VS Bloodred mutants:

Initially, the corn snake gene mutation, Diffusion (formerly called Bloodred) was described as being recessively inherited, but many of the F¹ generational heterozygotes exhibited some of the obvious features of the gene mutationhomozygotes. It is extremely rare for simple recessive F¹ heterozygotes to exhibit ANY features of their recessively inherited genetic mutation. For example, F¹heterozygous Amel corn snakes have no markers that demonstrate a hint of their simple recessive mutation, Amel. The paradoxical partial-exhibition of the Diffusion mutation in the heterozygotes resulted in the Diffused mutation being re-described as having codominant inheritance (codom for short), but was tagged with the descriptor, variable. At that time, variable codom seemed an accurate and satisfactory genetic description for the radical color and pattern diversity among members of this mutation, but far too many geneticanomalies persisted. Identification of the inheritance of this mutation is once again considered simple recessive, but the Bloodred corn that most of us identify with toDAY is virtually always the aggregate of traits resulting from theDiffused (new mutation name) gene mutation PLUS polygenetic traits promoted by selectively breeding toward the highest expressions of melanin reduction, diffusion, and red color saturation.

Striped Hypo Bloodred:

Combining the four recessively-inherited gene mutations (Stripe, Hypo, and Bloodred/Diffused) results in this beautiful morph compound. Many begin with striped pattern showing and slowly lose some or all of that pattern through maturity. Others, retain their neonatal pattern, but regardless, the finished genetic product is beautiful AND worthy of breeding into other gene mutations.

What to expect:

As neonates, Striped Ghost Bloodred corns are often heavily patterned. Most of them demonstrate head patterns that are notably unlike those of typical corns. Most SMR Bloodreds diffuse dramatically through maturity, thereby rendering adults that are nearly devoid of head markings, side markings, (any visible dorsal markings will be very faint). There will be NO belly checkering, but ventral coloration can be all red, all white, or red and white (no black). Many of the early Bloodred corns in the early 1990s were overly inbred and therefore suffered poor fertility (not to mention – the progeny of many of the first generations were stubbornly lizard lovers, refusing to eat pinky mice). Thankfully, through out-crossing in our projects to improve or change colors and patterns, Bloodreds no longer rank high in the realms of sterility or reluctance to eat rodents. In fact, there are some seasons in which Bloodred typesare among the best feeders of our corn snake neonates.

Important Note:
These images are not renderings of the actual animals being offered, (except for uniquely offered snakes found in the SURPLUSsection 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 yourSMR snake if it does not mature to be like our advertised examples.

Dilute Snow 12-17-12

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ToDAY’s SNAKE of the DAY (Mon. Dec. 17, 2012)

#121712

Dilute Snow Corn Snake

Female

d.o.h. 2011
25″ long on Dec. 16, 2012

$150.00 shipped

Comments: Superior color and scarcity in the market.

There are still many mutations with which the Dilute Mutation has not yet been married.

The U.S. Dollar bill in the picture is for size and color comparison. Every computer monitor renders different colors so we put this slightly

used dollar bill in the picture so you can hold one next to your computer to assess the color of the snake.

This snake is in good health (not under or over-weight, no parasites or diseases that we are aware, no injuries or defects, and routinely feeding on unaltered frozen/thawed mice).

If we have noticed that the snake listed has any temperament or behavioral issues other than human-friendly, it will be detailed in Comments above.

To purchase this snake, click on the Buy this icon. You will be launched to our shopping cart to submit your payment information and choose which TuesDAY or ThursDAY you prefer delivery.

Terrazzo121812

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ToDAY’s SNAKE of the DAY (Tue, Dec. 18, 2012)

#121812

Terrazzo Corn Snake

Female

d.o.h. 2011
34″ long on Dec. 16, 2012

$250.00 shipped

This 2011 female Terrazzo is the product of breeding an original Boyd-Line Terrazzo to a JMG Terrazzo.

Terrazzo mutants (originally called GRANITE corns) were first discovered in the 1990s by Craig Boyd on one of the Florida Keys (this mutation is genetically recessive to wild-type). The lean-bodied purely corn snake mutation originates in Key Corns (aka: Rosy Rats) so the predominate color is tan like most Rosy Rat Snakes. In the most extreme examples of the mutation, virtually no recognizable pattern is obvious. Even the best usually show vestigal striping, extending perhaps just one to three inches from the neck, toward the tail. From there aft, minute, random, and numerous freckling that is darker brown than the ground color zones are evident. Some Terrazzos have obvious dorso-lateral striping more than half-way down the body, starting at the neck. From there – in addition to the namesake freckling – the dorso-lateral longitudinal stripes break up to disorganized broken-stripes. The name GRANITE now applies to the mutation compound Diffused Anery (aka: Anery Bloodred).

Tessera Anery 12-19-12

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ToDAY’s SNAKE of the DAY (Wed, Dec. 19, 2012)

#121912

Anery Tessera

Female

d.o.h. 2011

28″ long on Dec. 16, 2012

$650.00 shipped

Anery Tessera Details

Anery Tessera (no aka)
Most Commonly Used Name: Anery Tessera
Mode of Genetic Inheritance: Dominant
Morph Type: Dominant & Recessive Gene Mutations

Eye Color: BLACK pupil and ground-color matching iris

FIRST, what makes Tesseras so expensive? Other than appearance, the primary (and inherent) value of Tessera-type Corns is their mode of inheritance. Since they are dominant to wild type, pairing any Ultra Type that is a Visual Het to ANY corn snake (other than a Tessera-type) will render 50% Tessera mutants in the F¹ (first)out-crossed generation. The results of pairing an Tessera homozygote with ANY corn snake (other than a Tessera-type) will render 100% Tessera mutants.

Anery Tesseras are virtually identical to exceptionally patterned Anery Striped Motleys in appearance, but that’s where the resemblance ends. The remarkably consistent Striped Motley-type pattern that derives from the base mutation, Tessera, is inherited dominantly. Hence, when you breed a Anery Tessera to a Anery, both Anerys and Anery Tesseras (approximately 50/50) will comprise the F¹s (First Generation Progeny). No waiting one more generation to get pattern mutants, since Tessera is dominant to wild type.

What to expect:

At this early period in the Tessera’s resume, we still don’t know what phenotypic potentials exist. So far, the only behavior that is atypical for a corn snake mutation is that many of the non-mutant siblings of Tessera types seem to have enhanced pattern and color features. So far, I don’t see any hybrid markers, since the collateral sibling features to which I refer are – so far – in the realm of improving existing corn snake features (i.e. some non-Tesseras have better, brighter, cleaner, and/or more consistent colors and markings).

As hatchlings, Anery Tesseras look virtually identical to exceptionally patterned Striped Anery Motley. Of course, the primary distinction is not visible. It is that of the dominant inheritance. We’re still not quite sure what to tell you about the adult appearance of Snow Tesseras, as 2010 was the first year they were produced here. Updated pictures will be made available as they mature.

History of the Tessera Mutation:

In 2007, Graham Criglow asked KJ Lodrigue to order a 1.2 trio of Striped Motleys that were advertised on one of the popular Online Classified sites – since Graham’s job prevented him from personally receiving them at that time. When they arrived, KJ discovered that they constituted a 2.1 reverse trio (two males and one female) instead of the advertised 1.2 trio (one male and two females). KJ and Kasi recommended that Graham gift the extra male to me, and that’s what Graham did. Profound thanks to Graham, KJ, and Kasi for that gracious and fortuitous gift. In 2008, both the Lodrigues and I independently bred our males (Graham’s and mine) to novel (unrelated) corns. I produced about 24 TESSERAS (so named by the Lodrigues for the tessellated lateral markings) from over 50 fertile eggs, but since the Lodrigues were in the middle of a career move to another State, they were less fortunate, producing just four non-mutant Okeetee-looking corns. My Tesseras were produced by the pairing of the male Tessera to three novel female corns (two F¹ Locality Okeetees from Chip Bridges Rhett Butler Line and one Okeetee-ish female, Het for Stripe and Amel). Imagine my surprise in seeing what we thought were nearly flawless Striped Motleys from three different females, only one of which was Het for a recessive pattern mutation? After the first brood of 50% Tesseras hatched from the female that was het for Stripe and Amel, except for the perfection of pattern, I was not thinking newdominant mutation, but when both wild-type Okeetees produced the same results, it was obvious that a new mutation was discovered.

Upon receiving the reverse trio from the seller, we all commented on the mutual peculiarity of the phenotypes. Most appeared to be the most perfectly Striped Motleys ever seen – in so much as their dorsal stripes were nearly contiguous from neck to tail tip (something never before seen in any corn snake pattern mutant) – but that was hardly possible if the admission of the breeder were true – that they were products of pairing a Striped corn with an Okeetee corn. How could these descendants of a Striped corn bred to an Okeetee be Motley types, instead of Striped? It is still unclear if those 2.1 Tesseras were F¹s (first familial generation) or F²s (the originator of this line is now out of the hobby and difficult to reach – for clarification). If these three Tesseras are F¹s, my deduction is that the striped corn he used in the original pairing was actually Striped AND Tessera. Even if those three were F²s, the likelihood of the mutant patriarch being a Striped Tessera is strong.

In the 100+ Tessera mutants produced by me as of Fall, 2010, I’m seeing the following features:

The most obvious advantage of having Tesseras in your breeding inventory (aside from their inherent beauty) is that because the mutation is dominantly inherited, 50% of every brood of corns from them will be Tessera mutants. With most other corn snake mutations, one must raise all the Het F¹ progeny, and won’t receive any mutants until F² reproduction (a task that can take four to six years). In the course of adding Tessera to the myriad current patterns and colors of corns, an entirely new market is now in the making.

Predominantly contiguous dorsal striping is the most unique feature of most Tesseras. Even when the stripe is broken, it resumes immediately thereafter (unlike Striped and Motley mutants whose dorsal striping never resumes with any degree of renewal). Roughly 1/3 of all that have been produced so far have no stripe breaks. Another 1/3 or so have two to four stripe breaks, and the other 1/3 can have five to 20+ stripe breaks, but those breaks are merely interruptions of the stripe. Not unlike very good Striped Motleys, many Tesseras have an interruption of stripe at the girdle (anatomical location – polar to the cloaca), but unlike Striped and Motley mutants, the dorsal stripe almost always continues to the tail tip. Thus far, fully striped Tesseras have been produced from parents with some-to-many dorsal stripe breaks. Hence, broken-striped Tesseras can produce fully striped striped Tesseras, even though their stripe is broken. Incidentally, none of the original 2.1 original Tesseras in this line have complete dorsal striping, but many of their progeny and grand progeny do.

More than 2/3 of the Tesseras produced by me so far have atypically large amounts of black pigment in their non-ventral pattern — a feature roughly 1% of all Striped and Motley mutants have demonstrated to date. Less than 1/4 of all Tesseras produced by me have little to no black in their markings, and these are mostly Striped Tesseras.

The belly patterns are all over the charts. A precious few have enough belly checkering to qualify them as wild-type common corns — until you flip them over to see their mutant pattern elsewhere. About 1/3 of them have roughly 15% to 30% of the volume of checkering seen in wild-types, and about 1/3 or more have virtually no belly checkering at all. Some of the ones with NO belly checkering have organized strings of black markings running the length of both sides of the belly, along the ventral keel.

Having grafted another entire branch on the already sprawling corn snake family tree, we think the Tessera mutation will offer genetic flexibility never before possible; mainly in the realm of making Stripe and Motley types without losing the black (or white in albinos). Imagine all the current colors of corns infused with the Tessera, Striped Tessera, and Motley Tessera patterns?

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 pic