because dominant cells are beast gibberish! Hey, ID1256700420, if you don't know, move on to something easier for you!
The answer to the question is this:
Genes make proteins that eventually influence the expression in such a way that it is observable (seen).
Example, if you have two genes for blue eyes, NO protein is made and there is NO color made for your eyes. The blue color is like the blue of the lake or the ocean, a result of the liquid in your eyes filtering out red light and leaving only blue.
If you have one brown gene, brown pigment is made by the proteins from the brown gene and you have brown eyes. COMPLETE DOMINANCE.
If you have an incompletely dominant gene for white in a flower and one for red in the same flower, BOTH colors will be expressed and you will have a pink flower. INCOMPLETE DOMINANCE.
if its 2 recessive allels together.
This is known as incomplete dominance, where the heterozygous individual exhibits a phenotype that is intermediate between the two homozygous parents. An example is when a red flower and a white flower cross to produce pink flowers.
Incomplete dominance can create offspring that display a trait not identical to either parent but intermediate to the two. One example of incomplete dominance is a red flower and a white flower crossbreed to form a pink flower.
Incomplete dominance is when the heterozygous phenotype is an intermediate blend of the homozygous phenotypes. Codominance is when both alleles in a heterozygous individual are fully expressed, resulting in a phenotype that shows characteristics of both alleles.
Codominance is when both alleles in a gene pair are fully expressed in the phenotype, resulting in a blending or combination of traits. Incomplete dominance is when neither allele is completely dominant, leading to a phenotype that is a mix of the two alleles.
co dominance is when there is no dominant or reccessive traits just lie in in incomplete dominance the diffrence is in co dominance the are mkore chromosomes
if its 2 recessive allels together.
This is known as incomplete dominance, where the heterozygous individual exhibits a phenotype that is intermediate between the two homozygous parents. An example is when a red flower and a white flower cross to produce pink flowers.
Incomplete dominance can create offspring that display a trait not identical to either parent but intermediate to the two. One example of incomplete dominance is a red flower and a white flower crossbreed to form a pink flower.
Incomplete dominance is when the heterozygous phenotype is an intermediate blend of the homozygous phenotypes. Codominance is when both alleles in a heterozygous individual are fully expressed, resulting in a phenotype that shows characteristics of both alleles.
Complete Dominance: Where in the dominant gene completely masks the effect of the resesive gen in heterozygous conditions. Ex. Tt or Rr. Incomplete Dominance: When 2 or more alleles influence a phenotype. Ex. Flowers. Codominance: When both alleles for a gene are expressed in heterozygous offspring. Ex. Bloodtype.
Complete Dominance: Where in the dominant gene completely masks the effect of the resesive gen in heterozygous conditions. Ex. Tt or Rr. Incomplete Dominance: When 2 or more alleles influence a phenotype. Ex. Flowers. Codominance: When both alleles for a gene are expressed in heterozygous offspring. Ex. Bloodtype.
Codominance is when both alleles in a gene pair are fully expressed in the phenotype, resulting in a blending or combination of traits. Incomplete dominance is when neither allele is completely dominant, leading to a phenotype that is a mix of the two alleles.
It is easier to analyze genotype by observing phenotype in organisms with incomplete dominance (also known as codominance), because in incomplete dominance the individual will show a specific phenotype for each situation, whether it is homozygous dominant, heterozygous, or homozygous recessive. For example, in flowers, such as the ones that Mendel studied, a homozygous dominant flower will be red, a homozygous recessive flower will be white, and a heterozygous flower will be pink. In complete dominance, a heterozygous will only express the dominant phenotype, as opposed to incomplete dominance, in which a heterozygous individual will express a phenotype that is representative of both of the dominant and recessive traits. Because heterozygous individuals in complete dominance express the dominant phenotype, it is hard to determine whether the genotype is homozygous dominant or heterozygous for the trait. Hope this helps!
A gerbil with a recessive gene would generally not show it, aka it will not show as a phenotype. However, there are slight differences in some gerbils with recessives, such as a lighter coat if the gerbil has a recessive c(h), g, or a.
Codominance is when both alleles in a gene pair are fully expressed in the phenotype, resulting in a blending or combination of traits. Incomplete dominance is when neither allele is completely dominant, leading to a phenotype that is a mix of the two alleles.
a pink rose