blood plasma contains no antigens nor antibodies so yes it is universal and can be accepted by anybody.
ABO blood group
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.
A
it lacks red blood cells. Plasma is not whole blood there for there isn't a conflicting part
abo blood group
explain co-dominance selecting the example of ABO blood group system
If your ABO blood type is AB, you could potentially give blood to individuals with blood types A, B, AB, and O, as long as there are no other significant blood type incompatibilities. The AB blood type is known as the universal plasma donor because it lacks ABO antibodies in the plasma.
It depends what you define as "Blood". Type AB, Rh positive recipients may receive whole blood (rarely used in modern transfusion medicine) from AB, Rh positive or negative donors. They may also (generally) receive red cell transfusions from any ABO and Rh blood type. They may receive platelets from any ABO, Rh donor type, but may require removal of residual incompatible plasma from the platelet product prior to infusion. An AB patient may only receive AB plasma. AB negative recipients may receive whole blood from an AB, Rh negative donor, red cells from any ABO, Rh negative donor, platelets from any ABO, Rh negative donor (with possible plasma reduction), and only AB plasma. Concerning the transfusion of Rh positive cellular components to Rh negative recipients; ABO compatible, Rh positive red cells may be transfused to Rh negative patients IF there are no compatible, Rh negative products available, transfusion cannot wait for units to be imported, anti-D antibodies are not present in the patient's plasma and the patient is a male, or a female of non-child bearing age.
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.
The antigens of the ABO blood group are located on the surface of red blood cells. These antigens determine a person's blood type (A, B, AB, O) based on the presence or absence of specific sugars on the red blood cell membrane.
ABO blood group expression is an example of a genetic trait that is determined by multiple alleles. The ABO blood group system is controlled by three alleles (IA, IB, i), which determine the presence or absence of antigens on red blood cells. The combination of these alleles in an individual's genotype determines their blood type.
ochres are used for painting in the abo tribes