The genes which determine the ABO phenotype are inherited in a codominant fashion.
ABO blood groups are determined by the presence or absence of terminal sugars on the red cell membrane. These sugars are placed on the red cells by enzymes (glycosyltransferases) that transfer specific sugars to the appropriate carbohydrate chain acceptor. The genes that code for the specific glycosyltranserases are located on chromosome 19. Therefore, the ABO antigens are indirect products of the genes.
Yes it is !! (X
they are blood types
O blood has no major proteins that A and B blood have. For example: If someone had B blood with its specific proteins, this person cant receive A blood because it has the specific A blood proteins that will cause bad clotting to stop it. O blood (with no different proteins) wont affect any blood.
Each blood type has it's identifying proteins, and will reject blood with the wrong proteins. Type A blood is anti-B, type B blood is anti-A, type O blood has both, and type AB blood has neither. Imagine if someone with AB blood tried to donate to someone with A. AB blood has identifying proteins A and B. The type A blood would recognize the B proteins and kill the cells. The same thing would happen with B, which would recognize the A proteins and kill the cells. Type O blood would recognize and reject both the A and B proteins and reject them. However, if someone who is type AB gives to AB people, their blood does not destroy neither protein A nor B, so it would accept it.
Blood type O lacks the antigen proteins of A and B. Blood type O is the universal donor.
There are three alleles for blood type: IA=Blood type A IB=Blood type B i=Blood type O The alleles for blood type A and B are codominant so when someone contains the IA and IB alleles, their blood type is AB.
Human blood type is determined by codominant alleles.
blood type A
Blood types is a good example of codominance. There are three alleles for blood type, that can be represented as IA, IB, and i. IA and IB are both dominant to i, but when an individual inherits one of each the former two alleles (IAIB), he or she will have type AB blood. Instead of one allele being straightforwardly dominant to another, or the resulting phenotype being a halfway stage between the two alleles, the phenotype has aspects directly resulting from each allele.
A blood group or blood type is based on the presence or absence of two proteins (A, B) on the surface of red blood cells. Because two proteins are involved, there are four possible combinations or blood types (ABO groups):Type A - Only the A protein is present.Type B - Only the B protein is present.Type AB - Both proteins are present.Type O - Neither protein is present (about 40 percent of the population).
Which statement describes the blood type of a person with the alleles IAi? It is type AB because I and i are codominant. It is type AB because A and i are codominant. It is type A because i is dominant and A is recessive. It is type A because A is dominant and i is recessive.
No, the only difference is in the shape of certain proteins.
blood type A