Complete Dominance: If two alleles have a complete dominance relationship, the phenotype of the heterozygote will be indistinguishable from the phenotype of the homozygous dominant. For example, for one of the gerbil fur color genes, that wild type agouti/brown allele (B) is completely dominant to the black (b) allele of the same gene. BB gerbils are brown; bb gerbils are black; Bb gerbils are brown. And you can't tell by looking at a brown gerbil whether it is BB or Bb, no matter how closely or carefully you look. Incomplete Dominance: If two alleles have an incomplete dominance relationship, the phenotype of the heterozygote will be intermediate between the phenotypes of the two homozygotes. This is often described as “blending,“ though the alleles themselves do not blend. The phenotype of looks like the two traits have blended together. For example, in snapdragons, one of the various genes which control flower color has two alleles, one for red flowers and one for white flowers. The two homozygous plants will produce red and white flowers, respectively. But the heterozygote will produce pink flowers--as if the two homozygous conditions were blended together like paint. In this case, the actual flower color (phenotype) probably results from varying amounts of production of the red pigment. The homozygous red plant produces a lot of the pigment, the homozygous white plant produces none of the pigment, and the heterozygote produces half as much as the homozygous red. Note that there is no dominant allele here. Codominance: Codominance is similar to incomplete dominance in that there is no dominant allele. However, the phenotypic expression is quite different. If two alleles have a codominance relationships, in the heterozygote both alleles will be completely expressed. For example, in humand ABO blood types, two of the three alleles (the A allele, properly designated as IA, and the B allele, properly designated as IB) are codominant. This gene controls the deposition of antigenic markers on cells. A person with blood type A (homozygous for IA or heterozygous for IA and the recessive i (for O type)) has one kind of antigen marker, while a person with blood type B (homozygous for IB or heterozygous for IB and the recessive i (for O type)) has a slightly different kind of antigen marker. The heterozygote has blood type AB, and this person's cells have both A antigens and B antigens on their surfaces. There is no “in-between“ antigen, as would be expected if the alleles showed incomplete dominance. Both of the alleles are completely expressed, and the person has both blood types at the same time. #Heterozygote #homozygous #alleles #phenotypes
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