This document summarizes various antigen-antibody binding tests used in serological techniques. It describes the basic interactions between antigens and antibodies like hydrogen bonds, ionic bonds, and hydrophobic interactions that allow their binding. It then categorizes serological tests into primary, secondary, and tertiary binding tests. Primary tests directly measure antigen-antibody binding and include radioimmunoassays, immunofluorescence assays, immunoenzyme assays, and disposable immunoassay devices. Common techniques discussed are RIA, ELISA, immunohistochemistry, precipitation tests, agglutination tests, and complement fixation.
2. INTRODUCTION
• ANTIGEN: it is defined as any foreign substance that induces an immune
response in the body.
• ANTIBODY: It is an blood proteins produced in response to and counteracting a
specific antigen.
• When antigen react with its antibody many number of non- covalent bonds appear.
Hydrogen bonds- it is shared between two electronegative atoms.
Ionic bonds – it is shared between oppositely charged residues.
Van der wall’s interactions – between electron clouds of two or more atoms.
Hydrophobic interactions – water forces hydrophobic groups together.
• In aqueous enivironment the non-covalent bond interactions are weak and depend
on close complementarity of the shape of antigen and antibody.
3.
4. • Serological techniques can be classified into three broad categories
1. Primary binding tests - It is directly mesure the binding of antigen and antibody
Radioimmunoassay
Radioimmunoassay for antibody
Radioimmunoassay for antigen
Immunofluorescence Assay
Direct fluorescent antibody tests
Indirect fluorescent antibody tests
Particle concentration fluorescence immunoassay
Immunoenzyme Assays
Microwell Enzyme-Linked Immunosorbent Assay tests
Western blotting
Immunohistochemistry
6. 2. Secondary binding tests
Precipitation tests
Immunodiffusion
Radial immunodiffusion test
Immunoelectrophoresis and related techniques
Agglutination
Antiglobulin tests
Passive agglutination tests
Viral hemagglutination an its inhibition
Complement fixation test
Antitoxin neutralization
7. In vivo test
Passive cutaneous anaphylaxsis.
3. Tertiary binding test
Viral neutralization test
Animal neutralization test
8. RADIOIMMUNOASSAYS
Principle :
The antigen is labelled with radioactive material. To mesure the
antigen(unlabeled) in a sample, a known amount of labeled (tracer) antigen
and the antibody are added. There is a competition between labeled and
unlabeled antigen for binding with the antibody. As the concentration of
unlabeled antigen increases in the sample, the amount of labeled antigen
bound to antibody decreases and vice-versa.
Isotopes used for labeling –
ɤ emitting isotopes I 125
β-emitting isotopes tritium and C 14
Gamma radiation is easy measure and practical to use because of high
pentration power
10. • By adding either 50% ammonium sulphate or 2 % PEG or
staphylococcus protein A or anti Ig the bound antigens are separated
from the unbound one.
• Conclusion:
The amount of antigen in the test sample is inversely proportion to the
amount of label measured.
Less bound radioactivity in the assay indicates more of antigen in the
test sample and vice-versa.
11. IMMUNOHISTOCHEMISTRY
• Enzymes conjugated to immunoglobulin ot antiglobulin can be use to
locate specific antigen in tissue section
• Horseradish peroxidase is most widely employed label
• Tissue section + enzyme labeled antibody
washing
Incubate in a solution appropriate enzyme substrate
Bound antibody is detected by developing brown stain at the site of
antibody binding.
13. NEUTRALIZATION TEST
• Its estimate the ability of antibody to neutralize the biological activity
of antigen when mixed with it in in vitro condition.