Cypress

Cypress ball Pythons headstamp is a lighter brown that fades into a goldish towards the neck. This gene typically causes dorsal striping at some level, with varying shades of brown, gold, and yellow. The biggest thing to note with this mutation is that the blacks are clean and crisp, with spots of beautiful blushing in them. This gene cleans up the animal to sharp high contrast look.

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First Produced By:

Outback Reptiles

First Produced In:

2012

Gene Type:

Incomplete Dominant

Complex:

Spider Complex

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Additional References

Special Thank You to Our Supporters

We couldn't develop our tests without the support of the community. These breeders helped us by volunteering to send their sheds in for our research.

Justin Kobylka

Kinova

Travis Wyman

asplundii Genetics

Dennis McNamara

DJM Reptiles

Steven Conduit

Conduit Constrictors

Josh Jensen

J-Royals

Randy Foster

Dark Cloud Reptiles

Brittney Gobble

Gobble's Reptiles

Becky Lyon

Lyon Exotics

Bob Vu

Bob's Balls

Snake Country

Chad Hulker

Hulker's Herps

Dan Sutherland

The Snake Keeper

Wesley Hatmaker

Muscles and Geeks Pythons

Eric Chou

Rodents & Royals

Matthew Marshall

Ball Brilliance

Patrick Cusack

About Our Test Grades

A+

Peer reviewed scientific paper detailing this mutation. Over 1000 homozygous, heterozygous, and normal samples have been run and match known genetics, and all known mutations are covered by our test.

Expected accuracy for this test is over 99.9%.

A

Over 1000 homozygous, heterozygous, and normal samples have been run and match known genetics, and all known mutations are covered by our test.

Expected accuracy for this test is over 99.9%.

B

Over 500 homozygous, heterozygous, and normal samples have been run and match known genetics, and all known mutations are covered by our test.

Expected accuracy for this test is over 99.5%.

C

Over 200 homozygous, heterozygous, and normal samples have been run and match known genetics over 99% of the time. To date our test accounts for all known mutations that cause this morph, but we are still looking to see if there are any signs that another mutation exists that causes this morph.

Expected accuracy for this test is over 99%.

D

Over 100 homozygous, heterozygous, and normal samples have been run and match known genetics over 80% of the time for at least one mutation. An additional unmapped mutation may exist for this morph. Either way, we are still working to optimize this test so that it will cover all known mutations for this morph.
‍
Expected accuracy will vary and will be below 99% because not enough tests have been run at this time.

E

The design and optimization for this test is in its final stages, but no working test exists at this point. Projected time to having a working test should be less than 2 months, unless it ends up that more sampling and sequencing is needed.

At that point the test would move down to being a Grade F.

F

Sequencing is in progress and we expect to have a working test in 2-4 months, as long as more sampling and sequencing is not needed.