red leaves, tall stems
brown leaf, tall stem
Tall = T short = t Tall plants genotype would either be TT or Tt, and short plants genotype would be tt.
Either B or b Have a great day!
The genotype of the man is A negative/O negative inheriting the A neg from his mother and O negative from his father. [Father's genotype is B positive/O negative. Mother's genotype is B positive/A negative.]
The mother is genotype AB, the father is either genotype BO or BB. If the father is genotype BO, the children can be genotype AB, AO, BB, or BO. This results in children with phenotype blood types of: AB, A, or B. If the father is genotype BB, the children can be genotype AB, AB, BB, or BB. This results in children with phenotype blood types of: AB or B.
An Aa genotype can result in the same phenotype as either an AA or AA genotype, if one of the alleles acts in a dominant fashion. If the A allele is dominant over the a allele, then the phenotype of a heterozygous (Aa) individual will be the same as the phenotype of a homozygous dominant (AA) individual.
The genotype of the unaffected children can be 1 of 2 different things. The genotype can be either completely dominant or heterogeneous.
To put this answer as simply as possible, an organism's genotype can change due to either a random mutation in the DNA/chromosomes or the insertion of DNA from one organism into the DNA of another organism.
Tall = T short = t Tall plants genotype would either be TT or Tt, and short plants genotype would be tt.
Thw genetic make-up, is the sequence of nucleic acids, Guanine, Adenine, Thymine, and Cytosine , that make up everything about you.("'\(o.o)/"')
If one parent is O and the other is AB, the child can either be blood type A (genotype AO) or B (genotype BO).
Either B or b Have a great day!
The mother is genotype AB, the father is either genotype BO or BB. If the father is genotype BO, the children can be genotype AB, AO, BB, or BO. This results in children with phenotype blood types of: AB, A, or B. If the father is genotype BB, the children can be genotype AB, AB, BB, or BB. This results in children with phenotype blood types of: AB or B.
The mother is genotype AB, the father is either genotype BO or BB. If the father is genotype BO, the children can be genotype AB, AO, BB, or BO. This results in children with phenotype blood types of: AB, A, or B. If the father is genotype BB, the children can be genotype AB, AB, BB, or BB. This results in children with phenotype blood types of: AB or B.
The genotype for Rh positive blood is either RR or Rr and the genotype for Rh negative blood is rr. Since the child gets one gene from each parent, they have the possibility of being either.
The mother is genotype AB, the father is either genotype BO or BB. If the father is genotype BO, the children can be genotype AB, AO, BB, or BO. This results in children with phenotype blood types of: AB, A, or B. If the father is genotype BB, the children can be genotype AB, AB, BB, or BB. This results in children with phenotype blood types of: AB or B.
The genotype is either BB or BO. The antigens on the blood cell are B and the antibodies in the blood plasma are A.
No. The daughter will be either blood group A (with genotype AO) or blood group B (genotype BO). This is because she must inherit one of the alleles from her father, so either an A or a B.