A homozygous purple flower and a homozygous white flower having offspring that are purple is an example of dominance. Traits that yield to other traits is referred to as recessive. So in this case Purple was the dominant trait and White was the recessive trait.
The offspring will get the traits of Homozygous BB .
The offspring will get the qualities , traits of homozygous BB.
There are two forms of Homozygous inheritance: Homozygous Dominant, and Homozygous Recessive. In order for two parents that are Homozygous to produce a Heterozygous offspring, one of them MUST be Homozygous Dominant, and the other MUST be Homozygous Recessive.
There only certain crosses that will produce heterozygous offspring. These are heterozygous vs heterozygous, homozygous vs homozygous and heterozygous vs homozygous.
25%
There are 3 probabilities: dominant homozygous, recessive homozygous, or heterozygous.
A normal homozygous individual can't produce offspring with sickle cell anemia. Both parents must carry the trait to have an offspring with the illness.
The homozygous dominant individual can only pass on the dominant allele and the homozygous recessive individual can only pass on the recessive allele, therefore all offspring will be heterozygous and have the dominant phenotype.
If all the offspring of a testcross are alike and resemble the organism being tested then the parent is homozygous.
100 percent.
From the cross Aa x Aa, the probability of producing a homozygous dominant offspring is 1/4 or (0.25).
100% heterozygous dominant