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Each antibody binds to a specific antigen in a highly specific interaction analogous to a lock and key.. An antibody (Ab) or immunoglobulin (Ig) is a large, Y-shaped protein belonging to the immunoglobulin superfamily which is used by the immune system to identify and neutralize antigens such as bacteria and viruses, including those that cause disease.
In immunology the particular macromolecule bound by an antibody is referred to as an antigen and the area on an antigen to which the antibody binds is called an epitope. In some cases, an immunoassay may use an antigen to detect for the presence of antibodies, which recognize that antigen, in a solution.
TCRs, like antibodies, constitute an important antigen recognition system within the immune system; but, whereas antibodies are restricted to targeting cell surface or secreted proteins TCRs can recognise peptides derived from intracellular targets presented by human leukocyte antigen (HLA).
The first correct description of the antigen-antibody reaction was given by Richard J. Goldberg at the University of Wisconsin in 1952. [1] [2] It came to be known as "Goldberg's theory" (of antigen-antibody reaction). [3] There are several types of antibodies and antigens, and each antibody is capable of binding only to a specific antigen.
The IgG, IgE and IgA antibody isotypes are generated following class-switching during germinal centre reaction and provide different effector functions in response to specific antigens. IgG is the most abundant antibody class in the serum and it is divided into 4 subclasses based on differences in the structure of the constant region genes and ...
Primary (direct) immunofluorescence (DIF) uses a single antibody, conjugated to a fluorophore. The antibody recognizes the target molecule (antigen) and binds to a specific region, called the epitope. The attached fluorophore can be detected via fluorescent microscopy, which, depending on the type of fluorophore, will emit a specific wavelength ...
Each antibody recognizes a specific antigen unique to its target. By binding their specific antigens, antibodies can cause agglutination and precipitation of antibody-antigen products, prime for phagocytosis by macrophages and other cells, block viral receptors, and stimulate other immune responses, such as the complement pathway.
The adaptive immune system and antigen-specific receptor generation (TCR, antibodies) are responsible for adaptive immune memory. [citation needed] After the inflammatory immune response to danger-associated antigen, some of the antigen-specific T cells and B cells persist in the body and become long-living memory T and B cells. After the ...