Old Shop – Page 160 – SMR Archive

Butter 10-05-12

#100512

Butter

Female

d.o.h. 2011
26″ long on October 4, 2012

$100.00 shipped

Comments: Superior color and season size

Feeding on frozen/thawed fuzzy mice

See BUTTER for genetic details

Ultramel Bloodred 10-09-12

#100912

Ultramel Bloodred

Male

d.o.h. 2010
34″ long on October 8, 2012
Possibly Het Anery

$165.00 shipped

Comments: Superior color and size maturity.

This male Ultramel Bloodred has a small scab between the internasal scales atop the head of the snake, the result of a burr we found on the hide in its cage. In two more sheds, that will heal to be virtually visible.

Re: Ultra mutation involved in this mutation compound:

INTERSPECIES HYBRID

The founder (discoverer) of the Ultra mutation states that he originally paired a gray rat snake with a corn snake, in the discovery of this mutation. By the time most of us were made aware of the HYBRID origins of Ultra types (originally named Ultra Hypos), we had already bred it into many other corn snake mutations. It was therefore collectively decided that in so much as it would be virtually impossible to track down (and eliminate) each and every snake containing the Ultra gene (surely thousands of individuals in the collections of hundreds of breeders and keepers), the mutation would be treated like other pure corns. In so much as it generally did not alter the corn snake appearance, it was known that even if peoples’ snakes had the Ultra gene mutation, they would either be unaware or could avoid mentioning it. Those of you out there that are boycotting HYBRID corns are advised to avoid acquisition of suspicious-looking corns with the word ULTRA in the morph description. Likewise, purists that admirably endeavor to promote only the genetically purest of corns are urged to question corns that have suspiciously abnormal features that have been historically identified as hybrid markers. Not that all such markers are proof of alien origins. Especially because of the difficulty and expense of formulating a DNA base line for all North American colubrid snake species, and in the absence of expensive DNA testing to identify authenticity of pure corns, without obvious visual and/or genetic distinctions, identification of legitimately pure (or impure) corns is difficult at this time, if not completely impossible.

Ultramel corns are the heterozygous (hobby abbreviation Het) products of the Ultra mutation. At SMR, we seldom offer the homozygous version of the Ultra mutation because there is a subtle and often indistinguishable difference between the homo (Ultra) and het (Ultramel) versions. Genetically speaking, Ultras are the powerhouse genetic version of this mutation in so much as when you breed one to any Amel corn snake, 100% of the progeny will be Ultramels. Breeding Ultramels to Amels results in approximately 50% Ultramels and approximately 50% Amels. Generally, Ultramels are more colorful than Ultras, but there are exceptions in both directions.

Other than appearance, the primary (and inherent) value of Ultra Type Corns (Ultras and Ultramels and their color and pattern compounds) is their mode of genetic inheritance. Since they are co-dominant to Amelanistics, pairing any Ultra Type to ANY Amel corn (or Het thereof) will render Ultra types in the F¹ (first) generation of out-crossing to non-Ultra type corns. The results of pairing an Ultra-type with a non-Amel corn (or Het thereof) will render Mendelian results that parallel recessively-inherited mutations; no Ultra-types will result and all progeny will be Het for Ultra when bred to non-Amels.

This is one of the few corn snake morphs that you should not purchase based on the pictured example. This is because of the extreme diversity of appearance within the mutation/morph. I could easily make this statement about most corn snake mutants, but the reason I do so here is because the real value of this mutation is its mode of inheritance. Few corn snake mutations are inherited in dominant fashion, so the primary reason most snake lovers purchase Ultras or Ultramels is because when they breed one to any snake with a form of classic amelanism, approximately 50% of the F¹ broods will be Ultra-type mutants (or approximately 25% – in the case of breeding the an Ultramel to a corn that is het for Amel and 100% if you breed an Ultra to an Amel type). I think you will be amply satisfied with any phenotype you receive from an Ultra type, but should you choose to buy one based on the sample picture on any web site, you may be disappointed if your’s does not mature to be exactly like the one that inticed you to purchase one.

Both Ultras and Ultramels render some of the most extreme examples of hypomelanism in corns, but a hypo-type phenotype is the genetic and visual function we recognize. Some people call them Ultra or Ultramel Hypos, but I prefer to leave off the “hypo” since the chromosomal location of this mutation is the same as Amel (Ultra and Amel reside on the same locus of the chromosome) and therefore has nothing genetically to do with the Hypo gene locus. Also, the hobby vernacular for the double mutant that is homozygous for both Hypo A and Ultramel would be Ultramel Hypo. Upon hearing/reading these two words together, you would surely presume that the snake Ultramel Hypo is a double mutant. Hence, those two words together are incorrect and confusing — when describing the single mutant genotypes, Ultramel or Ultra. When you breed an Ultra type to any corn that is not Amel (or Het Amel), this mutation genetically behaves as a recessive. Example: Pairing an Ultra with an Amel results in 100% Ultramel progeny. Pairing an Ultramel with an Amel results in progeny consisting of approximately 50% Amels and approximately 50% Ultramels. Pairing an Ultra with a wild-type corn that is not het for Amel results in 100% normals (wild type) that are all het for Ultra.

Striped Champagne 10-04-12

#100412

Striped Champagne

Male

d.o.h. 2010
38″ long on October 4, 2012

$165.00 shipped

Comments: Superior color and size maturity

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.

Miami Phase-12

Miami Phase (no aka)
Most Commonly Used Name: Miami
Mode of Genetic Inheritance: Dominant (wild-type) + Selective Variation
Morph Type: Selective Variant of wild-type

Eye Color: Black pupil & body ground colored iris

Miami Phase (not to be confused with Locality Miami corns) being a non-mutant morph, it is not inherited recessively, and the polygenetic nature of trait modification normally results in a higher variety of coloration among morph members. While there is some variety among our Miami corns, the color alteration of gray and orange or brick red (from neonate to adult) demonstrated in this genetic line is remarkable.

What to expect:

As with most corn snake neonates, expect young Miamis to be lackluster for at least one year, and considerably darker than their adult parents. Compared to other corn snake morphs, relative to color changing through maturation, this line predictably demonstrates vibrant red or orange markings on a gray or silver background, beginning in their sub adult size. Reproducing wild-caught Miami locality corns can cause great frustration to snake breeders. Babies of the wild locality Miamis often do not want to eat anything other than lizards, but our Miami corns are voracious rodent feeders. We do not entice our babies to eat lizard-scented pinky mice and such prey offerings are never altered (other than being hot water rinsed prior to being offered). Another trait of most locality Miami corns is that of being slightly smaller than most wild corns. In that Miami corns have been selectively bred for so many generations, most of ours reach predictably normal corn snake sizes, even though they hatch slightly smaller than most corn snakes.

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.

UltramelHETcaramel 11-14-12

This 2010 female Ultramel Hetero for Caramel is now 48″ long.

DAY111412

INTERSPECIES HYBRID

Ultramel (no aka)

Most Commonly Used Name: Ultramel
Mode of Genetic Inheritance: Codominant with Amel, but recessive to Wild-type

Morph Type: Hybrid Codominant

Eye Color: Dark Red pupil & body ground colored iris

Note: Ultramel is the visual heterozygote of the the mutation, Ultra.

INTERSPECIES HYBRID
The founder (discoverer) of the Ultra mutation states that he originally paired a gray rat snake with a corn snake, in the discovery of this mutation. By the time most of us were made aware of the HYBRID origins of Ultra types (originally named Ultra Hypos), we had already bred it into many other corn snake mutations. It was therefore collectively decided that in so much as it would be virtually impossible to track down (and eliminate) each and every snake possessing a form of the Ultra gene (surely thousands of individuals in the collections of hundreds of breeders and keepers), the mutation would be treated like other pure corns. In so much as it generally did not alter the corn snake pattern, some breeders could be unaware they had it, while some could avoid mentioning it, if they did know. Those of you out there who are boycotting HYBRID corns are advised to avoid acquisition of suspicious-looking corns with the word ULTRA in the morph description. Likewise, purists who admirably endeavor to promote only the genetically purest of corns are urged to question corns that have suspiciously abnormal features that are historically regarded as hybrid markers. Not that all such markers are proof of alien origins. Especially because of the difficulty and expense of formulating a DNA base line for all North American colubrid snake species, and in the absence of expensive DNA testing to identify the authenticity of pure corns, without obvious visual and/or genetic distinctions, identification of legitimately pure (or impure) corns is difficult at this time, if not completely impossible.

Ultramel corns are what we call the Visual Het version of the Ultra Mutation. Virtually all heterozygotes of mutations that are recessive to Wild-type are indiscernable, when compared to their non-Het siblings. At SMR, we seldom offer the homozygous version of the Ultra mutation because there is a subtle and often indistinguishable difference between the Homo (Ultra) and Het (Ultramel) versions. Genetically speaking, Ultras are the powerhouse genetic version of this mutation in so much as when you breed one to any Amel corn snake, 100% of the progeny will be Ultramels. Breeding Ultramels to Amels results in approximately 50% Ultramels and approximately 50% Amels. Generally, Ultramels are more colorful than Ultras, but there are exceptions in both directions. Breeding an Ultra type to any non-Amel corn will result in NO Ultra types, since Ultra is recessive to Wild-type.

Other than appearance, the primary (and inherent) value of Ultra Type Corns (Ultras and Ultramels and their color and pattern compounds) is their mode of genetic inheritance. Since they are co-dominant to Amelanistics, pairing any Ultra type to ANY Amel corn (or Het thereof) will render some Ultra types in the F¹ (first generation) of out-crossing to non-Ultra type corns. The results of pairing an Ultra-type with a non-Amel corn (or Het thereof) will render Mendelian results that parallel recessively-inherited mutations; no Ultra-types will result, and all progeny will be Het for Ultra when bred to non-Amels.

This is one of the few corn snake morphs that you should not purchase based on a pictorial example. This is because of the extreme diversity of appearance within the mutation/morph. I could easily make this statement about most corn snake mutants, but the reason I do so here is because the real value of this mutation is its’ mode of inheritance. Few corn snake mutations are inherited in dominant fashion, so the primary reason most snake lovers purchase Ultras or Ultramels is because when they breed one to any snake with a form of classic amelanism, approximately 50% of the F¹ broods will be Ultra-type mutants (or approximately 25% – in the case of breeding the an Ultramel to a corn that is het for Amel and 100% if you breed an Ultra to an Amel type). I think you will be amply satisfied with any phenotype you receive from an Ultra type, but should you choose to buy one based on the sample picture on any web site, you may be disappointed if yours does not mature to be exactly like the one that inticed you to purchase.

Both Ultras and Ultramels render some of the most extreme examples of hypomelanism in corns, but a hypo-type phenotype is the genetic and visual function we recognize. Some people call them Ultra or Ultramel Hypos, but I prefer to leave off the “hypo” since the chromosomal location of this mutation is the same as Amel (Ultra and Amel reside on the same locus of the chromosome) and therefore has nothing genetically to do with the Hypo gene locus. Also, the hobby vernacular for the double mutant that is homozygous for both Hypo A and Ultramel would be Ultramel Hypo. Upon hearing/reading these two words together, you would surely presume that the snake Ultramel Hypo is a double mutant. Hence, those two words together are incorrect and confusing — when describing the single mutant genotypes, Ultramel or Ultra. When you breed an Ultra type to any corn that is not Amel (or Het Amel), this mutation genetically behaves like a recessive. Example: Pairing an Ultra with an Amel results in 100% Ultramel progeny. Pairing an Ultramel with an Amel results in progeny consisting of approximately 50% Amels and approximately 50% Ultramels. Pairing an Ultra with a wild-type (non-Amel) corn results in 100% normals (wild type) that are all het for Ultra.

What to expect:

Hatchlings often look like extreme Hypo mutants, but some are nearly as brightly colored as Amel corns (lacking so much overall black). Of course, the main distinction between the two is the pink/red eye pupil in Amels and the wine-colored pupil in Ultramels. There is great variation in the degree of red in both eye pupil and pattern coloration.

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.

Ghost-12

Ghost (no aka)
Most Commonly Used Name: Ghost
Mode of Genetic Inheritance: Recessive
Morph Type: Mutation Compound (Anery + Hypo A)

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

This compound recessive morph results from combining the two recessive color mutations, Anery and Hypo A. The finished genetic product reminds one of a pale or “ghostly” version of the Anery mutation (which of course, is precisely what it is).

What to expect:

Hatchlings are essentially miniatures of their adult form, unlike most corn snake mutations that dramatically morph from hatchling to adult. Like many Anery types, the carotenoid yellow retained from their diet – manifests with maturity, therefore, will not be seen in the neonates. Some will acquire more yellow than others. Like their Anery counterparts, adult males have an overall coloration of earth tones, but females very rarely exhibit such coloration. Most adult females are varying shades of gray and black, while males are usually anything between tan and brown in color overtones. Of course, there are exceptions where some males will not have earth tones and some females will. Such exceptions are very rare in the base mutation, Anery.

Motley Bloodred 10-17-12

Motley Bloodred (no aka)
Most Commonly Used Name: Motley Bloodred
Mode of Genetic Inheritance: Recessive
Morph Type: Mutation Compound (Motley + Bloodred)

Eye Color: Black pupil & body ground-colored iris.

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

This compound morph results from combining the pattern mutation, Motley with the pattern mutation, Bloodred.

Sunglow Motley12

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. Their genetic mutation is officially Amel Motley, but 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 and conducted breeding trials to determine what caused the intense colors. She concludes that SMR Sunglow Motleys possess the added mutation of what is sometimes referred to as Red Mask or Red Factor. It is allegedly inherited in dominant fashion (it is a recently discovered mutation and is still poorly understood). Once I validate her genetic inheritance findings, the price of Sunglow Motleys will increase, since they will undoubtedly become powerful genetic tools in deepening and saturating reds in other corn snake morphs.

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 while the color transition is fractionally that of other mutations, some saturation of color will occur through maturation.

Snow 02-21-13

Each DAY at 11:00 am. ct (GMT – 5) we will post a different SMR snake being offered at a special price.

All snakes will be chosen for their rarity and/or unique beauty.

FREE U.S. SHIPPING for each Snake-of-the-Day.

DAY022113

{simpleproduct:id=500}

toDAY’s SNAKE of the DAY (Thu. Feb. 21, 2013)

Details

#022113

Snow Corn Snake

Female

d.o.h. 2005
45″ long on Feb. 21, 2013

$400.00 shipped

This 2008 female Snow corn has rather rare yellow markings. I bred the original F2 Tessera to her so that two generations later the Snow Tesseras would have more visible pattern. She hides no other traits that I’m aware. She was brumated from October 10, 2012 to January 31, 2013 so she will soon be ready to breed. Last year she laid 21 eggs in her first 2012 clutch and 14 on her second clutch so she is quite the breeding machine.

Classic Snow (no aka)
Most Commonly Used Name: Snow
Mode of Genetic Inheritance: Recessive
Morph Type: Mutation Compound (Amel&Anery)

Eye Color: Red pupil

This 29″ long 2011 hatchling male Snow Corn snake is from parents that are Het for Kastanie. This male could be a Snow Kastanie, but in that I cannot say that with certainty, his price is lower than Snow Kastanies. Since there is not always a visual marker for Kastannie (when in concert with other color mutations) the only way to know for sure if he is actually also a Kastanie is to breed it to a Kastanie and evaluate the progeny.

The first compound mutation in corns, Snow corns (genetically, Anery Amels) are the F² finished product of pairing an Amel with an Anery. Both base mutation phenotypes are obviously supplanted with different shades of white (no Amel or Anery traits showing). Pairing an Amel with an Anery yields 100% wild phenotypes (common corns) that are of course all Heterozygous (abbr. Het) for both Amel and Anery. In so much as both base gene mutations are inherited in simple recession fashion, approximately one out of 16 of the F² progeny will be a Snow. Of course, there will be NO black on any snow corn that lacks the genetic impacts of other mutations. Sometimes, black is visible in parts of the eye, but this is not melanin. It is eye tissue whose density defies light reflection, so it appears to us to be black. At this time, many breeders are changing the colors of Snow corns through the addition of other gene mutations that alter the mature phenotype.

What to expect:
Since they have been commonly bred for so long, there is a wide variety of different color schemes in Snow corns. As hatchlings, most are some shade of white with contrasting white or pink markings, but most end up being off-white with dirty white markings. Pink can show through on adults and yellow is becoming a fairly common color in adult snows (not the carotenoid yellow that manifests through maturity from retention of carotenoids in their diets). Such non-carotenoid retained yellow is sometimes mixed in the ground color, sometimes only in the markings, sometimes only in the boundaries of the blotches, and any combination thereof.

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.

Tessera 03-05-17e

Show & _$ell

{product id=1625}

This 20″ male 2016 Tessera is currently eating frozen/thawed small or medium pinky mice. His amazing orange coloration was inherited from common genes (not from a mutant gene) of his parents; sire is one of the original F1 Tesseras in the hobby and his damme is a high-orange Extreme Okeetee. His $215.00 price includes to any of the lower-48 United States