multiple allele inheritance.
MN blood group codes for antigens M and N on red blood cells . and ABO blood group does the same by coding A B AND i antigen on red blood cells. but as MN blood group do not illustrate strong immunity so they are ignored in regular blood transfusions . while ABO blood groups are taken in consideration as the give strong immunological reactions
ABO blood group
on the surface of the RBC membrane
ABO stands for a well-known blood group series, and these letters also are the initials of a great many organizations.
Blood groups are a classic example of multiple allelic inheritance
explain co-dominance selecting the example of ABO blood group system
A
MN blood group codes for antigens M and N on red blood cells . and ABO blood group does the same by coding A B AND i antigen on red blood cells. but as MN blood group do not illustrate strong immunity so they are ignored in regular blood transfusions . while ABO blood groups are taken in consideration as the give strong immunological reactions
abo blood group
The ABO blood group.
The ABO blood group system was discovered in 1900 by Karl Landsteiner. The AB blood group was discovered by Von Decastellor and Sturli in 1902.
ABO blood group
on the surface of the RBC membrane
ABO stands for a well-known blood group series, and these letters also are the initials of a great many organizations.
each parent contributes only one allele for the ABO blood group to the offspring
The ABO blood group is determined by the presence or absence of specific antigen molecules on the surface of red blood cells. These antigens are determined by the inherited genes from our parents. There are three main types of antigens that determine the ABO blood group: A, B, and O. The combination of these antigens results in different blood types: A, B, AB, and O.
There is no disease caused by parents having the same ABO blood group.