When two alleles are codominant, that means that they are expressed simultaneously in different parts. For example, if a red and white flower were crossed, and the resulting flower had some red petals and some white petals that would be codominance. Another example is when animals have stripes and spots. Not to be confused in incomplete dominance, which is when two alleles are expressed simultaneously in the same part of the organism (in the flower example all the petals would be pink).
Homozygous dominant genotype (AA): The phenotype will show the dominant trait. Heterozygous genotype (Aa): The phenotype will also show the dominant trait due to the presence of at least one dominant allele. Homozygous recessive genotype (aa): The phenotype will exhibit the recessive trait.
No, blood group is determined by the presence or absence of specific antigens on red blood cells, whereas genotype refers to the genetic makeup of an individual. Blood group is not solely determined by genotype, as multiple genes can influence blood type.
Yes, sickle cell anemia is considered a codominant trait in genetic inheritance.
I think it's genotype...
Dominant markers show only the dominant allele and mask the recessive allele, while codominant markers show both alleles separately. With dominant markers, heterozygotes can't be distinguished from homozygous dominant individuals, while with codominant markers, heterozygotes display a distinct phenotype from homozygous individuals. Dominant markers are easier to interpret but may not provide as much information as codominant markers.
Codominant
Codominant
Rainforest food
Homozygous dominant genotype (AA): The phenotype will show the dominant trait. Heterozygous genotype (Aa): The phenotype will also show the dominant trait due to the presence of at least one dominant allele. Homozygous recessive genotype (aa): The phenotype will exhibit the recessive trait.
Codominance and incomplete dominance can only exist if the genotype has heterozygous alleles.
In the perfect world, no. IA and IB are codominant so both alleles are represented in the person's phenotype. Blood type A can only be represented by itself in a phenotype if the person's genotype is either IA IA or IA i.(The result of a DNA mutation may be able to create a phenotype of blood type A out of a (purebred) cross (of blood type A and B).No. IA and IB are both codominant . Blood type A can only be represented by itself in a phenotype if the person's genotype is IAIA or IAi. Blood type B can only be represented by itseft in a phenotype if the person's genotype is IBIB or IBi. If the phenotype (blood type) is AB the genotype is IAIB.
No, blood group is determined by the presence or absence of specific antigens on red blood cells, whereas genotype refers to the genetic makeup of an individual. Blood group is not solely determined by genotype, as multiple genes can influence blood type.
Codominant.
POLYGENIC!
Yes, sickle cell anemia is considered a codominant trait in genetic inheritance.
A cross between two dominant homozygotes may produce a codominant animal.
I think it's genotype...