What happened was that dad and mom each passed both an O and an Rh negative to the baby. The end result is an O negative child. Each of their kids has around a 1 in 8 chance of having O negative blood. This is possible because both O and Rh- are something called recessive traits.
Theoretically yes, but it would be extremely rare. Two O parents will get an O child nearly all of the time. But as with anything in biology, there are occasional exceptions to this rule.
For example, two O blood type parents can produce a child with only O blood type. Two parents with A blood type can produce a child with either A or O blood types. Two parents with B blood type can produce a child with either B or O blood type.
To be O, you usually need to get an O from both mom and dad. But an AB parent usually has an A and a B version, not an O. So they usually can't have an O child.
Rh incompatibility occurs when the mother's blood type is Rh negative and her fetus' blood type is Rh positive. Antibodies from an Rh negative mother may enter the blood stream of her unborn Rh positive infant, damaging the red blood cells (RBCs).
What happened was that dad and mom each passed both an O and an Rh negative to the baby. The end result is an O negative child. Each of their kids has around a 1 in 8 chance of having O negative blood. This is possible because both O and Rh- are something called recessive traits.
A baby may have the blood type and Rh factor of either parent, or a combination of both parents. Rh factors follow a common pattern of genetic inheritance. The Rh-positive gene is dominant (stronger) and even when paired with an Rh-negative gene, the positive gene takes over.
Only 7% of the population are O negative. However, the need for O negative blood is the highest because it is used most often during emergencies. The need for O+ is high because it is the most frequently occurring blood type (37% of the population). The universal red cell donor has Type O negative blood.
If you do not inherit the Rhesus D antigen from either parent, then you are Rh-negative (15% of us). So, is it possible for two people who are Rh-positive to produce a child that's Rh-negative? The answer is yes — but only if neither parent passes along Rhesus D.
“Blood type has to be OO in order to be expressed as O,” says Seitz. So, a child needs two O genes in order to have type O blood. One parent could be AO and the other parent could be BO, and if each gives their O the child will be OO.
Brothers and sisters don't always share the same blood type. The genotype of both parents plays a role in defining the blood type. For instance, children of parents with the genotypes AO and BO may have the blood types A, B, AB, or O. Thus, siblings do not necessarily have the same blood type.
When a woman is Rh negative and her fetus is Rh positive, it is called Rh incompatibility. Why is Rh incompatibility a problem? When the blood of an Rh-positive fetus gets into the bloodstream of an Rh-negative woman, her body will recognize that the Rh-positive blood is not hers.
Most of the time, being Rh-negative has no risks. But during pregnancy, being Rh-negative can be a problem if your baby is Rh-positive. If your blood and your baby's blood mix, your body will start to make antibodies that can damage your baby's red blood cells. This is known as Rh sensitization.
O negative blood is missing both the A antigen and the B antigen and does not contain the protein for Rh positive blood. This means that it's missing those things that could cause a bad reaction during a blood transfusion and can be given to any blood type.
Blood is further classified as being either "Rh positive" (meaning it has Rh factor) or "Rh negative" (without Rh factor). So, there are eight possible blood types: O negative. This blood type doesn't have A or B markers, and it doesn't have Rh factor.
One of the world's rarest blood types is Rh- null. It is called the "golden blood". This blood type is distinct from Rh-negative since it has none of the Rh antigens at all. There are less than 50 people in the world population who have this blood type.
Of the eight main blood types, people with Type O have the lowest risk for heart attacks and blood clots in the legs and lungs. This may be because people with other blood types have higher levels of certain clotting factors, which are proteins that cause blood to coagulate (solidify).
Only 7% of the population have O negative blood. Due to the its versatility for transfusions, it is in high demand. In an emergency, it is the blood product of choice. For example, just one car accident victim can require up to 100 units of O neg.
Why is O negative blood important? O negative blood is often called the 'universal blood type' because people of any blood type can receive it. This makes it vitally important in an emergency or when a patient's blood type is unknown.
7% of the population, or 1 in 11 people, has type O-negative blood. Type O-negative blood can be transfused to ALL blood types. Patients with an O-negative blood type can only receive O-negative blood transfusions. The ideal donation types for O-negative are whole blood and Power Red.
Excessive use of O-negative leads to a shortage of blood supply compared to other types of blood. Individuals with O-negative blood generally have higher levels of stomach acid and are more likely to be exposed to medical conditions such as ulcers.
Before I delve into the science, let me quickly stop any tongues that might be wagging if you are asking about a paternity debate: Yes, two O-positive parents could have any number of O-negative children. In fact, according to the experts, most children who are O-negative have parents who are O-positive.
A child can have a different blood type than their parents and also the same blood type. Our RBCs carry antigens on their surfaces and the ability to produce these antigens is determined by genes inherited from parents. So, genotypes determine the blood groups in the child. ABO blood group system is found in humans.