You inherit two alleles, one maternal and one paternal. Because both parents are homozygous, each only has one variation to pass down. This means that any offspring will be heterozygous and have one allele with a repeat of 200base pairs and one with 400bp.
Must be AA, or AO because the mother having O blood, which is homozygous recessive, must be OO. The signs mean little here except the father must carry them and the child inherited them from the father.
Children receive half of their genetic material from each parent. There are specific sites on DNA, known as restriction sites, that are recognized by restriction enzymes. These are used to determine paternity. Samples of DNA from the mother, father and child are taken. They are all digested ('cut') by the same restriction enzymes. These DNA fragments are then separated by gel electrophoresis (which separates fragments based on size). The bands of the child are compared to the mother and father's. If the band is not the same as the mother's, it must have come from the father. If these do not match up, then the sample was not taken from the biological father.
I don't know what your scientific terms mean, but I can tell you that I am a blue eyed female (my father was brown eyed/my mother had hazel eyes). The father of my two children is brown eyed. Both of my children have blue eyes.
all type A children born in this condition are A heterozygous . there is two possibilities with the father genes but both give us the same result, since we don't know the father blood type is hetero or homo : if Father is Hetero : 1- Father(IAi --> A) and Mother(ii --> O), the Children are 50% of the kids will be O 50% of the kids will be A ( hetero) if Father is Homo : 2- Father(IAIA --> A) and Mother(ii --> O), the Children are 100% of the kids will be A ( hetero) so in both cases weither the father is homo or hetero, children will be hetero, because of the mother blood type.
If the parents have a recessive trait of blue eyes and during the meiotic phase, if the chromosomes have alleles of homozygous recessive type then the son can have blue eyes.
depends... were they homozygous or heterozygous?
yes, if the mother is either A positive or AB positive.
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.
All babies will be A, if the mother alleles are homozygous (AA) and the other option they will be in 50% A and 50% O if mother alleles are heterozygous (Ai) ,, :) Hope that helps
Must be AA, or AO because the mother having O blood, which is homozygous recessive, must be OO. The signs mean little here except the father must carry them and the child inherited them from the father.
If the father is homozygous (ii, BB): the baby will be type B. If the father is heterozygous (ii, Bi): the baby will be type B or O.
that depends on the breed, the mother and father
Children receive half of their genetic material from each parent. There are specific sites on DNA, known as restriction sites, that are recognized by restriction enzymes. These are used to determine paternity. Samples of DNA from the mother, father and child are taken. They are all digested ('cut') by the same restriction enzymes. These DNA fragments are then separated by gel electrophoresis (which separates fragments based on size). The bands of the child are compared to the mother and father's. If the band is not the same as the mother's, it must have come from the father. If these do not match up, then the sample was not taken from the biological father.
I don't know what your scientific terms mean, but I can tell you that I am a blue eyed female (my father was brown eyed/my mother had hazel eyes). The father of my two children is brown eyed. Both of my children have blue eyes.
Father or Mother
A grandpa is a grandfather, the father of your father or mother.
Yes it is possible. Blood type O is recessive. So it is true that the child would need an OO blood type. But if the mother is OO and the father is BO..... Then in this case the mother would contribute an "O" and the father a B or an O. If the father contributes an O then the child will be type O. Of course in order for this to happen the father must be heterozygous and not homozygous for the dominant blood type.