Category: Morphs

ButterTessera 2015

Butter Tessera (no aka)
Most Commonly Used Name: Butter Tessera
Mode of Genetic Inheritance: Dominant & Recessive mutations
Morph Type: Single Dominant Mutation (Tessera) & simple recessive (Amel) & Caramel
Eye Color:  RED pupil & body ground colored 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 Tessera 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.

 

Adding the color mutations (Amel & Caramel) to TESSERA, obviously results in a Butter Tessera.  As Tessera usually does, Butter coloration is extremely exaggerated.  The inherent breeding value of this mutation compound is that if you breed this snake to a regular Tessera, 50% of the progeny will be Tesseras, but all of them are het for Caramel and Amel (therefore, Butter).  Pairing those progeny at adulthood with complementary genes renders Tesseras, Amel Tesseras, Caramel Tesseras, and Butter Tesseras.  
 
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 new dominantmutation, 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.

 

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.

Anery Tessera 2015

Anery Tessera (no aka)
Most Commonly Used Name: Anery Tessera
Mode of Genetic Inheritance: Dominant
Morph Type: Single Dominant Mutation (Tessera) & simple recessive (Anery)
Eye Color:  Black pupil & body ground colored 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 Tessera 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.

Adding the recessively inherited gene mutation, Anerythristic (Anery for short) to the dominantly inherited gene mutation, Tessera results in this amazing corn.  

 
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 new dominantmutation, 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.


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 trait(s) that are 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).

 

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.

Banded Okeetee 2015

BANDED OKEETEE (no aka)
Most Commonly Used Name: BandedOkeetee
Mode of Genetic Inheritance: Dominant (wild-type) + Selective Variation
Morph Type: Selective Variation of wild-type
Eye Color:  Black pupil & body ground colored iris

 

Banded Okeetees are a classic example of the promotion of polygenic traits through selective breeding.  By breeding together only Okeetees with saddles that extended down on the sides, after a few generations, we are now reliably reproducing the Okeetees with obvious banded markings.  No part of this genetic product owes its’ appearance to any known mutation.  As it is with most corn snake morphs, no two have the same quality, degree, and volume of banded markings.  

 

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.

 

 

Butter 2015

Butter (no aka)
Most Commonly Used Name: Butter
Mode of Genetic Inheritance: recessive
Morph Type: Mutation Compound (Amel + Caramel)
Eye Color:  Red pupil

 

The genetic product of combining the Amel and Caramel recessive mutations render the ultimate expression of yellow in corns. Both color and pattern are variable in hue and shades, but all adults demonstrate what is left when the Amel mutation removes melanin from the Caramel mutation; YELLOW.

 

What to expect:
Expect  most neonates to have surprisingly low-quality yellow (compared to adults), and pattern on some may actually be brown for up to a year or longer.  I have personally never seen one retain non yellow colors throughout maturity, so be patient.  In six to 18 months, all other colors should transform to yellow. Some will demonstrate slightly obvious white blotch margins.  The base color mutation yellow is spectacular, and therefore popular in corn snake herpetoculture.
 
 

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.

 

 

 

Hurricane Snow Motley

Hurricane Snow Motley (no aka)

Most Commonly Used Name: Hurricane Snow Motley
Mode of Genetic Inheritance: Recessive Plus polygenetic pattern trait, Hurricane
Morph Type: Compound (Anery, Amel, & Motley plus Hurricane pattern variation)

Eye Color: Red pupil

 

No photo description available.

This compound morph results from combining the color mutations Anery and Amel = Snow with the pattern mutation Motley but also with a twist.  Through selective-breeding, the hurricane pattern trait changes an otherwise ordinary Snow Motley into a Motley with noticeable and thick margins around the dorsal circles of the Motley pattern.  The nearly perfect Motley circles on the back can run down the back from the neck to the half-way point, but in rare specimens they run nearly to the tail.  The name “Hurricane” tags this Motley variant because the concentric borders of the dorsal circles of the pattern (where ground color insets the high degree of darker pattern) resemble the meteorological sign for hurricane storms.  The hurricane markings are not the result of a gene mutation, but from selective breeding that promotes the concentric and thick borders of the dorsal circles between pattern zones.  Adults are generally more colorful than hatchlings, but relative to the transformation of most corns from hatchling to adult, any Snow Motley will change very little throughout maturity.  One of the genetic functions of Motley is to reduce or eliminate melanin pattern zones of black, making classic Snow Motleys show NO black circle boundaries, but Hurricane pattern variants seem to ignore this genetic trait of the classic Motley.

This image demonstrates the distinct inbetween a classic Anery Motley and a Hurricane Anery Motley variant.  In some specimens, it appears as though all the pattern zones of an Anery Motley (darkest color) are reduced to a concentric black border of the circles of ground color on the dorsum.  

 
What to expect:
Snow Motleys (classic or Hurricane variants) are one of the rare exceptions among corns in so much as their appearance from neonate to adult changes very little. Expect mostly gray snakes with dark pattern margins that change very little in color intensity from hatchling to adult.  Some have only a few of the classic Motley dorsal circles (often resembling a chain configuration) while some sport a long and contiguous “chain” pattern nearly all the way to the tail. Never expect to see such dorsal circles ON the tail itself.  Patterns are often less distinct and colors are sometimes slighted softened in Motley mutants – compared to non-Motleys.

 

 

 

 

Pied-sided Bloodred – low 2015

Pied-sided Bloodred (aka: p/s bloodreds)
Low-White Expression
Note:  Expect DIFFUSED and BLOODRED to be incorrectly but synonymously used in the hobby
Most Commonly used Name: Pied-sided Bloodred
Mode of Genetic Inheritance:Selective Variation + Recessive
Morph Type:Single recessive mutation & selective variation
Eye Color:  Black pupil & body ground colored iris

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

In 1997, we acquired a Bloodred female from an unknown corn snake breeder that had a few lateral patches ofwhite.  We bred her to one or two males over the next six years, but never reproduced the white patches, nor did we hold back any of her sons to breed back to her.  In 2003, she was bred to a male Bloodred that has considerably more white on his sides, but no white was demonstrated in any of the F1 progeny.  Upon breeding two pairs of the F1 babies together, approximately 50% of the F2s demonstrated various degrees of white on their sides.  Also, when breeding one of the F1males back to the SMR original female, 50% of those progeny also had various degrees of lateral white patches.  This demonstrated that the SMR P/S Bloodreds were not alleles of the original male Bloodred gene that had similar random lateral white patches. 

At this time – in my opinion – insufficient data has been gathered to determine that P/S Bloodreds owe their atypical white lateral and facial markings to a gene mutation.  It is remotely possible that polygenetic traits are responsible for the atypical patches of white on the face and sides, based on confusing phenotypes.  While evaluation of Mendelian Phenotype Proportions points to the likelihood of a gene mutation, that cannot be definitely proclaimed at this time.

It is sometimes difficult to determine the inheritance of a trait or mutation when expression of the atypical feature is highly variable – as is the case with SMR P/S Bloodreds.  In other words, are the Bloodred siblings of P/S Bloodreds that lack lateral patches of white not P/S Bloodreds OR are they P/S Bloodred mutants that are at the lowest end of the 0-to-10 scale for white expression?  When proving the mode of inheritance via evaluation of Mendelian Phenotype Proportions in a single brood of snakes, visual expression is crucial.  Hence, if the expression of white in this morph can be so extremely variable, when citing the ratio of visual mutants compared to visual non mutants, the very description of inheritance can be in question.  I therefore honestly don’t know if P/S Bloodreds owe their distinctive pied-sided white appearance to a recessive mutation OR polygenic trait modifications. Breeding trials are constantly being evaluated.  The snag in this determination is the fact that there are many siblings of the P/S Bloodreds that lack white, but have the remarkably red sides that are devoid of markings (a virtually distinct collateral trait of SMR P/S Bloodreds).  This particular trait is not foreign to the base mutation, Bloodred, but in P/S Bloodred phenotypes, expression of this shocking red trait is definitely exaggerated, compared to non P/S Bloodreds in the hobby.  Hence, the question again, “are these non P/S Bloodred siblings of those with white, P/S bloods that are exhibiting no white OR is there an associative phenotype that exaggerates the red sides, even if they don’t exhibit lateral white?”.  Some have suggested that the lack of color in places (i.e. white patches) is an extreme expression of the genetic elimination of melanin/markings.  That perhaps the genetic erradication of markings – when expressed in its’ extreme – may eliminate not only the melanin, but the other chromatophore as well?

Aside from the random lateral white feature that is obvious in most members of this morph – compared to standard Bloodreds – is the extreme diffusion – even if they don’t demonstrate any of the randomly distributed white patches on the sides.  On most – even in the absence of lateral white patches – there is an obvious line of demarcation between the dorsal and lateral pattern fields – just above the half-way point on the sides (dorsolaterally).  This stark break line between dorsal and lateral markings also begs questions about the lateral white being a mutation OR variable expression of polygenetics. 

 

 

What to expect:
As neonates, P/S Bloodred corns are often heavily patterned (sides are generally faded or lacking typical lateral markings). Some exhibit black (or partially black) scales bordering some of the pattern blotches, and most of them have head patterns that are notably unlike those of typical corns. Like most SMR Bloodreds, P/S 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, like virtually all Bloodreds, P/S Bloodreds do not rank high in the realms of sterility or reluctance to eat rodents.   In fact, there are some seasons in which Bloodreds are among the best feeders of our corn snake neonates.
 
The amount and random distribution of white that will be on High White Expression members of this morph are difficult to quantify.  As more are produced, the percentage of white on the three classes of this morph (Low white, Medium white, and High white) will be possible to grade.  Virtually all P/S Bloodreds randomly demonstrate the shocking white blotches only on the lower sides of their bodies – predominantly in the first half of their bodies.  Some will have one (or a few) white scales (or partially white scales) on their faces.  It is still rare for a SMR P/S Bloodred to have white on the sides that is disjunct to the belly white (not touching the belly color field).
 

 

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 Tessera – INFO NEEDED

Lava Tessera
Most Commonly Used Name: 
Mode of Genetic Inheritance: 
Morph Type: 
Eye Color:

This 2013 male Lava Tessera corn snake is now 34″ long, eating frozen/thawed hopper mice.   Otherwise lateral black color zones being gray is what prompted the originator to originally call Lavas TRANSLUCENT HYPOS.  Aren’t we glad he changed that to LAVA?  We expect him to be mature enough to breed in 2015.

Fire – 2014

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.

 

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.

 

Extreme Tessera 2016

Extreme Okeetee Tessera (no aka)
Most Commonly Used Name: Extreme Tessera Okeetee
Mode of Genetic Inheritance: Dominant
Morph Type: Single Dominant Mutation
Eye Color:  Black pupil & body ground colored iris
 

Extreme Okeetee Tesseras are just what the name implies; typically patterned Tesseras, but with much more black than most.   

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 new dominantmutation, 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.

What to expect:
So far, the only trait(s) that are 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.  
 
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.

 

Banded Okeetee 2014

Banded Okeetee (no aka)
Most Commonly Used Name: Banded Okeetee
Mode of Genetic Inheritance: Dominantwild-typeselective variation
Morph Type: Selective variant of wild-type, Okeetee


Banded Okeetees are a classic example of the promotion of polygenic traits through selective breeding.  By breeding together only Okeetees with saddles that extended down on the sides, after a few generations, we are now reliably reproducing the Okeetees with obvious banded markings.  No part of this genetic product owes its’ appearance to any known mutation.

 

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.