Quote Originally Posted by RXLReptiles View Post
I think what jellybeans is referring to is the individual co-doms that make up the BEL complex animal, on a technicality co-doms are technically "hets" for the super form, in that they are a single copy of a gene. And since BEL complex animals are an allelic combo, they do require 2 "hets" to create the homozygous BEL super form.
Jellybeans is 100% correct.

The technicality is whether one uses standard genetics definitions or the corrupt herper definitions.

In standard genetics, a homozygous animal has a homozygous gene pair--a gene pair made up of two copies of the same gene, and a heterozygous ("het") animal has a heterozygous gene pair--a gene pair made up of two different genes. For example, a normal gene and an albino gene, a pinstripe gene and a normal gene and a lesser gene and a mojave gene are heterozygous gene pairs.

In the herper genetics definition a heterozygous gene pair is also made up of two different genes, but they are a normal gene and a recessive mutant gene. By this definition only the normal gene and the albino gene make a heterozygous gene pair.

For what it's worth, the standard genetics definitions are easier to use than the herper definitions.

The simplest het lesser ball python has a lesser gene paired with the corresponding normal gene. Crossing two of these het lessers is one way to produce a homozygous (AKA super) lesser ball python. There are other ways, such as crossing two homozygous lessers. And crossing a homozygous lesser to a homozygous mojave is one way to produce a BEL that is heterozygous because the gene pair is made up of a lesser gene and a mojave gene.