Question

based on the results the genetics crosses, why do you think black and chinchilla rabbit alleles can "interact with one another?

Answer 1

Answer:

An example of multiple alleles is coat color in rabbits (Figure 1). ... The chinchilla phenotype, cchc ch, is expressed as black-tipped white fur. ... Interestingly, the Himalayan phenotype is the result of an allele that produces a ... Alternatively, one mutant allele can be dominant over all other phenotypes, including the wild type.

Answer 2

Black and chinchilla rabbit alleles that can "interact with one another are explained in the following:

• Precisely two alleles, either dominant and then one recessive, may exist for a particular gene, according to Mendel.
• Just two alleles, the dominant including one recessive, may exist for a specific gene, according to Mendel. The wild-kind gene is generally dominant over all others, chinchilla is somewhat dominant over Himalayan & albino, whereas Himalayan is entirely dominant over albino. Observing the traits of each conceivable heterozygote offspring showed this hierarchy and allelic series.
• The absolute dominance of a wild-kind phenotype above other mutants is needed and allows to "dosage" of a specific gene product, in which the wild-kind allele delivers the precise quantity of transgene and mutant alleles are unable to.
• Like rabbits, the wild-kind allele may contribute a certain amount of fur pigmentation, although mutants may only supply a little amount or nothing at all. The Himalayan phenotype, interestingly, is the consequence of such an allele that generates a temperature-delicate gene outcome that only develops pigment in the rabbit's colder extremities.
• One mutant allele, but at the other hand, could be dominant over other phenotypes, including the wild k. This can happen when the mutant allele interacts with the genetic messenger, causing the mutant phenotype to be expressed even in heterozygotes with one wild-type allele copy. The mutant allele can interfere by boosting the function of the wild-type gene product or altering its distribution throughout the body, for example.