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11.1 Antibody production and vaccination Understanding: -Every organism has unique molecules on the surface of their cells -B lymphocytes are activated.

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Presentation on theme: "11.1 Antibody production and vaccination Understanding: -Every organism has unique molecules on the surface of their cells -B lymphocytes are activated."— Presentation transcript:

1 11.1 Antibody production and vaccination Understanding: -Every organism has unique molecules on the surface of their cells -B lymphocytes are activated by T lymphocytes in mammals -Plasma cells secrete antibodies -Activtaed B cells multiply to form a clone of plasma cells and memory cells -Antibodies aid the destruction of pathogens -Immunity depends upon the persistence of memory cells -Vaccines contain antigens that trigger immunity but do not cause the disease -Pathogens can be species specific although others can cross species barriers -White cells release histamine in response to allergens -Histamines cause allergic symptoms -Fusion of a tumour cell with an antibody producing plasma cell creates a hybridoma cell -Monoclonal antibodies are produced by hybridoma cells Applications: -Antigens on the surface of red blood cells stimulate antibody production in a person with a different blood group -Small pox was the first infectious disease of humans to have been eradicated by vaccination -Monoclonal antibodies to hCG are used in pregnancy test kits Skills: -Analysis of epidemiological data related to vaccination programmes. Nature of science: -Consider ethical implications of research: Jenner tested his vaccine for smallpox on a child

2 Antigens Antigen = Foreign molecule that can trigger an immune response. Found on the surface of invasive cells: cancer cells, parasites, bacteria, viruses…

3 Influenza Hemagglutinin and neuraminidase Antigens found on the surface of the virus H = allows virus to stick to hosts N = Releases newly formed virus particles

4 Immune system Distinguish between foreign and self antigens

5 Blood transfusions Blood groups are based on the presence or absence of different antigens on the surface of red blood cells

6 Blood transfusions Mismatch between donor and recipient in a blood transfusion can lead to an immune response.

7 Blood typing Mixing blood with different antibodies Reactions observed to see if agglutination occurs between blood types and antibodies

8 Specific immune response Challenge and response Challenge: Antigens on surface of pathogens invading the body Response: Stages that follow the challenge…

9 Response Pathogens ingested by macrophages

10 Response Antigens from pathogens displayed in membrane of macrophage

11 Response Lymphocytes (T cells) have antibody-like receptors in their membranes that can bind to the antigens and become active (these are specific)

12 Response Lymphocytes (B cells) bind (again specific). These then become active

13 Response B cells divide many times by mitosis to form a clone of plasma cells that produce one specific antibody type (clonal selection)

14 Response Antibodies secreted and help to destroy the pathogen.

15 Response Antibodies persist in the body for a few weeks or months Plasma cells a gradually broken down once infection has been beaten Memory cells remain long after the infection Remain inactive unless the same pathogen infects the body again – where they become active and respond very rapidly

16 Summarise Summarise the key steps of immune response (the ppt is online!)


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