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Blood is a remarkable fluid that sustains life by transporting essential substances, such as oxygen and nutrients, to every part of our body. While all human blood serves the same vital purpose, it is not identical. Blood types, classified by the ABO and Rh blood group systems, play a crucial role in various aspects of healthcare, from blood transfusions to pregnancy management.

♦ The ABO Blood Group System
The ABO blood group system, discovered by Austrian immunologist Karl Landsteiner in 1900, is the most well-known and widely used classification for human blood types. It is based on the presence or absence of specific antigens on the surface of red blood cells. The four main blood types within the ABO system are A, B, AB, and O.

1. Blood Type A: Individuals with blood type A possess Antigen A on their red blood cells and B antibodies in their plasma. This means their immune system recognizes Antigen B as a foreign substance.

2. Blood Type B: People with blood type B exhibit Antigen B on their red blood cells and A antibodies in their plasma, indicating their immune system recognizes Antigen A as foreign.

3. Blood Type AB: Individuals with blood type AB have both Antigen A and Antigen B on their red blood cells, but they have no A or B antibodies in their plasma. This unique blood type is considered the universal recipient, as they can receive blood from any other blood type.

4. Blood Type O: People with blood type O do not possess Antigen A or Antigen B on their red blood cells, but they have both A and B antibodies in their plasma. This makes blood type O the universal donor, as they can donate blood to any other blood type.

♦ The Rh Blood Group System: Rh+ and Rh-
In addition to the ABO blood group system, blood types are further classified based on the presence or absence of the Rh factor (also known as the Rh antigen). The Rh factor is another antigen that can be present on the surface of red blood cells, and it is denoted as either Rh-positive (Rh+) or Rh-negative (Rh-).

1. Rh-positive (Rh+): Individuals with Rh+ blood have the Rh factor present on their red blood cells.

2. Rh-negative (Rh-): People with Rh- blood lack the Rh factor on their red blood cells.

The combination of the ABO blood group and the Rh factor determines an individual's complete blood type. For example, someone with blood type A and Rh-positive would have the blood type A+.

♦ Inheritance of Blood Types
Blood type inheritance is determined by genetic factors. Each person inherits one ABO gene from each parent, resulting in various possible combinations that dictate blood type:

• Blood Type A: Inherited A gene from one parent and O gene from the other (AO)
• Blood Type B: Inherited B gene from one parent and O gene from the other (BO)

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