Antigen-Antibody Complex (AQA A Level Biology)
Revision Note
Written by: Lára Marie McIvor
Reviewed by: Lucy Kirkham
Antigen-Antibody Complex
An antigen and its complementary antibody have complementary molecular shapes
This means that their molecular structures fit into each other
When an antibody collides (randomly) with a foreign cell that possesses non-self antigens with a complementary shape, it binds with one of the antigens
When this occurs, the two molecules combine to form an antigen-antibody complex
A diagrammatic version of an antigen-antibody complex showing the basic features (in reality, both antigens and antibodies have highly complex 3D structures)
As seen in the diagram above, antibodies have at least two antigen-binding sites
This means they can bind to more than one bacterium or virus at the same time
This cause groups of the same pathogens to become clumped together
This process is known as agglutination
The binding of antibodies to the antigens either neutralises the pathogen or acts like a marker to attract phagocytes to engulf and destroy the pathogens
Due to agglutination, phagocytes can often phagocytose many pathogens at the same time, as they are all clumped together
Agglutinated pathogens cannot move easily, so they are easily engulfed and destroyed by phagocytes
Examiner Tips and Tricks
Remember - antibodies can cause pathogens to stick together (due to their multiple antigen-binding sites), a bit like glue. This might help you remember the biological name for this process: agglutination!
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