Ouchterlony double diffusion
Yüklə 489,77 Kb. Pdf görüntüsü
|
- Bu səhifədəki naviqasiya:
- Experiment 3 SINGLE RADIAL IMMUNODIFFUSION Introduction
- Fig 1: In Single Radial Immunodiffusion assay the diameter of the precipitin
- Materials Required: Procedure
- Fig 2: Template for pattern of wells for loading of standard and test antigens
|
Particulars
Marks Maximum Actual Conduction of Experiment 10 Write up 05 Observation and Result 05 Viva 05 Total 25
Signature of Staff Incharge RUAS
Department of Biotechnology (2021-22) Immunology and Molecular Biology Laboratory Experiment 3 SINGLE RADIAL IMMUNODIFFUSION Introduction: Single Radial Immunodiffusion, also known as Mancini technique, is a quantitative immunodiffusion technique used to detect the concentration of antigen by measuring the diameter of the precipitin ring formed by the interaction of the antigen and the antibody at optimal concentration. In this method the antibody is incorporated into the agarose gel whereas the antigen diffuses into it in a radial pattern. Aim: Principle: Ab In gel
Ag Concentration
ring increases with increasing concentration of the antigen RUAS
Department of Biotechnology (2021-22) Immunology and Molecular Biology Laboratory Materials Required: Procedure: 1 .
2.
3.
4. 5.
6. 7. 8.
Before starting the experiment the entire procedure has to be read carefully. Always wear gloves while performing the experiment. Preparation of IX Assay Buffer: To prepare 10 ml of IX Assay Buffer, add 1 ml of 10X Assay buffer to 9 ml of sterile distilled water. Preparation of 1% Agarose gel: To prepare 10 ml of Agarose gel, add 0.1 g of Agarose powder to 10 ml of IX Assay Buffer, boil to dissolve the agarose completely. Wipe the glass plates with cotton; make it grease free using alcohol for even spreading of agarose. Cut the wells neatly without rugged margins. Add the antiserum to agarose only after it cools down to 55 0 temperature will inactivate the antibody. Ensure that the moist chamber has enough wet cotton to keep the atmosphere humid. * Molecular biology grade water is recommended (Product code: ML024).
1. Prepare 10 ml of 1% agarose gel (as give in the important instructions). Take 6 ml of this gel solution in a clean test tube. 2. Allow the solution to cool down to 55-60 0 C and add 80 gl of antiserum to 6 ml of agarose solution. Mix well for uniform distribution of the antibody. 3. Pour agarose solution containing the antiserum on to a grease free glass plate placed on a horizontal surface. Allow the gel to set for 30 minutes. 4. Place the glass plate on the template provided. 5. Punch wells with the help of gel puncher corresponding to the markings on the template. Use gentle suction to avoid forming rugged wells. 6. Add 10 of the given standard antigen and test antigen samples to the wells. • Standard Antigen A (3.75 mg/ml) • Standard Antigen B (7.5 mg/ml) C. Standard Antigen C (15 mg/ml) D. Standard Antigen D (30 mg/ml) • Test Antigen 1 • Test Antigen 2
RUAS
Department of Biotechnology (2021-22) Immunology and Molecular Biology Laboratory
Fig 2: Template for pattern of wells for loading of standard and test antigens 7. Incubate the glass plate in a moist chamber overnight at 37 0 C.
Observation and Graph: Result: Yüklə 489,77 Kb. Dostları ilə paylaş:
|