2012-Pied-sided Bloodred – low

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.

At this time, this author suspects that P/S Bloodreds owe their atypical white lateral and facial markings to polygenetic traits versus simple recessive mutation. It is sometimes difficult to determine the inheritance of a trait or mutation when expression of the atypical feature is highly variable.  In other words, are the Bloodred siblings of P/S Bloodreds 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 doubt.  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.

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 Low 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).
 

 

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.

Ultramel Bloodred 12-04-12

 
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.
DAY120412

toDAY’s SNAKE of the DAY (Tue., Dec. 4, 2012)

{simpleproduct:id=419}

Details

 
#120412
Ultramel Bloodred
Female
d.o.h. 2010
32″ long on Dec. 1, 2012
Possibly Het Anery
$200.00 shipped

Comments:  Superior color and size maturity.
This Female Ultramel Bloodred needs to be cooled if you want her to breed in 2013.  If she is not sold, she will be cooled next week, preparing her for 2013 breeding.  She will grow more than one inch in brumation and prior to laying eggs, another three inches of aggressive feeding so she can store fats for producing eggs.  She should be over 36″ by the time she lays her eggs in 2013.  She has a calm demeanor and has never attempted to bite, so if you’re looking for a pet that has deep colors, within one year her reds will have saturated to mature coloration.
 

 
 

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.

 

Ultramel Charcoal 10-25

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 SHIPPING for each Snake-of-the-Day.
DAY102512
.
.

$125.00

toDAY’s SNAKE of the DAY (Thu. 25, 2012)

#102512
Ultramel Charcoal
Female
d.o.h. 2011
27″ long on October 21, 2012
$125.00 shipped

Comments: Superior color and size maturity.

The result of breeding an Ultramel Het Charcoal to a Blizzard.  Breeding this snake to a Blizzard corn will result in reproduction of Blizzards, Ultramel Charcoals, and Amels.

 

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.

 

Scaleless Anery Tessera 07-13-15b

Show & $ell

{product id=1082}

This 2015 male Scaleless Anery Tessera is the first of his kind to hatch in the U.S..  He has eagerly taken his first three offerings of unaltered, frozen/thawed pinky mice so he’s ready to be shipped to his new home now.  His $1,400.00 price includes     Bonus Pics . . .

 

Same snake in different pose.  

Same snake in different pose.

ANERYthristic12

Anerythristic (aka: Anery, Anery A)

Most Commonly Used Name: Anery (hobby abbreviation for Anerythristic)
Mode of Genetic Inheritance: Recessive
Morph Type: Single Recessive Mutation

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

 

This corn snake (originally one word, we usually space between corn and snake) color morph is named from the Latin Anerythristic – loosely meaning no red or yellow pigment. Anerythrism best describes this morph because the most obvious missing color resulting from this genetic mutation is red. Another Latin term applicable to other snake species with this general mutation is axanthic, meaning no yellow pigment. Since red is the most recognized general color common to virtually all wild-type corns, its absence is more readily apparent. Having cited this lack of pigment, adult Anery corns nearly always have noticeable yellow – relegated mostly to the face, neck, and lower sides. The result of the retention of carotenoids attained from their diet, neonate Aneries do not exhibit this yellow – since it gradually accumulates throughout maturity. Adult Aneries that are devoid of yellow color zones are extremely rare in the hobby at this time.

Occasionally, we see Anery corns referred to as black albinos. We intentionally omitted this as an aka (also known as) because it is time for that name to disappear from the hobby, when referring to melanin-rich corn snakes. Modern perceptions of “albino” do not apply to such darkly-colored mutants. Ancient definitions of albino “may” have originally also applied to solid black (melanistic) animals (a common mammalian mutation), but that is now considered a colloquially incorrect term when applied to any wholly color aberrant mutant with obvious black.  I think it is nonsense to call a black snake ALBINO, since the word albino derives from the Greek albus – meaning white (which is the visual consequence of most non-reptile animals that lack color pigment).  Unlike mammals and some other animals whose colors are rendered as variations of their only pigment cell (melanin), albino snakes are often colorful (instead of white) in the absence of melanin – since snakes have color pigments produced by chromatophores AND melanin-producing melanophores.  Black Albino is an oxymoron in the realm of most snakes, and I believe its use in corn snake herpetoculture creates undue confusion.

 

What to expect:
Hatchling Anery corns are essentially black and white, since carotenoid yellow is slowly acquired from their diet – thereby manifesting slowly – as they mature. Most Anery corns begin to display that yellow around the face and neck between six and 12 months of age, and it spreads tail-ward the rest of their lives – relegated mostly to the sides of the body.

 

There is a reasonably dependable degree of color distinction between adult male and female Anery corns to tempt us to say that Anery mutants exhibit sexual dichromatism (aka: color dimorphism), but in so much as there are exceptions to this color distinction, the term does not accurately apply. An extreme majority (if not ALL) adult male Anery corns I’ve seen in my life had notably different coloration than their adult female counterparts. Males generally have earth tones (some shade of brown) in their ground color zones, their markings, or both – but a female exhibiting this color feature (without the aid of a separate mutation) is utterly rare. Most adult females are shades of black and gray (not counting carotenoid yellow attained from diet). Bear in mind that I refer to single gene mutant Anerys – since compound morphs can display colors that are attributed to polygenic or mutationaltraits derived from other genetic contributors. In most cases, male and female adult Anery corns can be visually distinguished at a glance, without the need to probe or compare tail conformation. This photograph is a typical example of this visual color distinction referenced above. This also applies to Ghost corns and some other Anery compound mutants, since they are homozygotes of the Anery gene mutation.  The color distinction demonstrated here does not apply to neonate Anery mutants.

 

There are only three males in this group of sub-adult Anery corns produced by Nancy Wimer.

Thank you, Nancy.

 

 

 

 

 

 

 

 

 

 

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.

 

 

 

 

Ultramel Charcoal 10-25-12

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 SHIPPING for each Snake-of-the-Day.
DAY102512
.
.

$110.00

toDAY’s SNAKE of the DAY (Thu. 25, 2012)

#102512
Ultramel Anery
Female
d.o.h. 2011
27″ long on October 21, 2012
$110.00 shipped

Comments: Superior color and size maturity.

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.

 

Lava 10-24-12

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 SHIPPING for each Snake-of-the-Day.
DAY102412
.
.{simpleproduct:id=356}
.
$125.00

toDAY’s SNAKE of the DAY (Wed. 24, 2012)

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.

#102412

Lava
Male
d.o.h. 2011
29″ long on October 21, 2012

$125.00 shipped
.

Comments:  Superior color and size maturity.

 

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.

 

Striped Hypo Bloodred 10-23-12

 
DAY102312
 
#102312
Striped Hypo Bloodred
Female
d.o.h. 2011
29″ long on October 21, 2012
$225.00 shipped
 
 


Comments:  Superior color and size maturity.

 

 

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.

 

 
 
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, F1 heterozygous 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.
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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.

 

Cayenne Fire 102212

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 SHIPPING for each Snake-of-the-Day.
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DAY102212
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$300.00

toDAY’s SNAKE of the DAY (Mon. 22, 2012)

 

 

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.

 

Cayenne Fire
Male
d.o.h. 2011
33″ long on October 21, 2012
$300.00 shipped
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Cayenne 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.

We believe that the reason this morph is so much redder than its Fire counterparts is because of a gene mutation we call Red Mask.  Red Mask is, I believe, dominant to wild-type.  It appears to add a red layer of color to any snake possessing the mutation, resulting in a snake that is overall more red than it’s base morph counterparts.  Breeding trials are under way to unlock the mystery of this red-enhancing geme mutation.

 

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.

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.

Striped Honey 03-23-18e

Show & $ell 

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This male 2018 Striped Honey (Sunkissed Caramel) corn snake is currently 20″ long, eating frozen/thawed pinky mice.  Just because none of his parents or other relatives have produced any Star-Gazer’s mutants in the 13+ years I’ve been breeding this familial line does not mean this one cannot be a carrier.  SG is not a disease, but a gene mutation that is inherited from snakes that are either homozygotes of SG (exhibiting the nasty neurological issues from SG) or heterozygotes (exhibiting NO markers for the gene mutation).  His $115.00 usd price includes