yes, this is due to the fact that one of the main factors that determined the blood type of the child is family genetics, since a child receives separate sources of genetic code called alleles from maternal and paternal during the time of conception.
At least one parent has the 'positive' gene, but that is the only thing that can be determined.
These tags are actually called antigens. There are several but the most familiar are used to identify blood for transfusions. These are called O, AB, B, or A and are genetically determined.
Colorblindness is not determined by blood type. Everyone has two alleles for blood type: A, B, or O. If one parent is AO and the other is BO, the child can be AB, AO, BO, or OO.
The child's blood type is determined by his or her parents' blood types. If both parents have type A, the child can have either type A or O. If both parents have type B, the child can have either type B or O. If one parent has type A and the other parent has type B, the child can have type A, B, AB, or O, but he/she is most likely to have type AB. If both parents have type O, the child will have type O.
Yes, so does the father's. The blood type is determined by the genes inherited from the parents. Each parent provides one factor and the two factors determine the blood type. The child can easily have a different blood type than their parents.
Platelets and Blood Serum
Platelets and Blood Serum
In order for your baby to have type b blood, at least one parent must have either type b or type ab blood. Blood type probabilities can be determined for babies by using a blood group calculator. Once a baby is born, the babies' blood will be tested to determine blood type.
Nope.
yes, absolutely
Of course!
Proteins in the blood are what decides your blood type. An O has none of these proteins, an A has either AA or AO, a B has BB or BO, and an AB has A and B. When a child is born it gets one of these blood proteins from its parents. If an AA and a BB parent mix the only option is AB. AO and BO could turn out as an AB, AO, BO or and O. If one parent has an AB the parent would pass on either the A or B protein. Since A or B is always dominant over O, no matter what the other parent had, the child would have to be and AA, AO, BB, BO, or AB.