Bullseye: *Whistles* Ha ha ha!
Daredevil: That's him... That's your father's... Don't...
Elektra: He has to pay for what he's done.
Daredevil: I don't want to lose you again.
Bullseye: Ha ha ha! Come on, girl!
Elektra: I'll find you.
Bullseye: *Whistles at Elektra* Ha Ha Ha! Hey orphan, let's play!
FF
ff
dl
No probability. Neither parent has an "A" for the child to inherit to make an "AB".
In this case both parents must be heterozygous to have this child. This means the mother will have the genotype AO and the father will have the genotype BO. In order to have blood type O, the child must have the genotype OO.
A genotype is decided from two alleles. One of these alleles comes from the father, and one comes from the mother. Thus it should be clear that the genotype can be different from both parents. For instance, suppose the father has genotype AA, and the mother has genotype aa. In this case, the child will have genotype Aa, which neither parent has.
No because AA and SS create the genotype AS :)
The parents pass along genes to the child
ff (apex)
ff (apex)
PHENOTYPE: 75% with freckles 25% without freckles GENOTYPE: 1FF:2Ff:1ff
BIBOB
The man's genotype is CcFf. The woman's genotype is CcFf. These genotypes only apply if curly hair is dominant to straight hair. Freckles is dominant to no freckles. Also if a man who is heterozygous for both curly hair and freckles who then marries a woman with the same genotype.
No probability. Neither parent has an "A" for the child to inherit to make an "AB".
Yes, if they both carry a recessive (hidden gene) for freckles, then yes their child would have a 25% chance of having freckles.
Yes it depends on their genes
In this case both parents must be heterozygous to have this child. This means the mother will have the genotype AO and the father will have the genotype BO. In order to have blood type O, the child must have the genotype OO.
We'llsay F is dominant for freckles and f is recessive for non-freckled. The father is ff The mother is Ff The child is ff. Probability of this cross producing a homozygous recessive child is 50%. There isn't a precise term for this cross.
The sun will make freckles more prominent/noticeable.
Child's genotype would be homozygous recessive alleles (nn) and parents would both have heterozygous dominant alleles (Nn).