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Biomedical Science Activity 1.1.5 ELISA
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PLTW Biomedical Science
From Activity we know about the spread of bacterial meningitis at the school. Using the ELISA we want to figure out who else is infected and determine who spread the disease to who
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Workshop Overview Introduction to Immunology, Antibodies and ELISA
Set up a serial dilution of our antigen Detect antigen in patient samples
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Crash Course in Immunology and ELISA
Immune Response C. Macrophage A. Pathogen D. Macrophage B. B cells F. T cell E. Macrophage G. B cell J. Antibodies attach to pathogen Antibodies are ineffective Against Zombie Virus H. Memory B cells I. Plasma cells
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Crash Course in Immunology and ELISA
Antibody Structure ELISA tests are based on immune system antibody molecules Light chain Heavy chain Disulfide bonds Antigens
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ELISA Enzyme-Linked Immunosorbant Assay (indirect)
Add the purified antigen to all the wells. Incubate for 5 min. Rinse Add serum antibodies (student samples) to the appropriate wells. Incubate for 5 min. Rinse Add the enzyme-linked antibody to all wells. Incubate for 5 min. Rinse Add enzyme substrate to all wells. Incubate for 5 min.
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Creating standards using serial dilution
*16. Label microtiter plate strip *Using step numbering from PLTW Activity manual
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Creating standards using serial dilution
17. Add 50µL PBS to wells 2-12 PBS = Phosphate Buffered Saline, good for solubilizing proteins
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Creating standards using serial dilution
18. Add 100µL of antigen (AG) to well 1
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Creating standards using serial dilution
19. Create a serial dilution by moving 50µL from well 1 to next well, mix, move 50µL, repeat until well 11, remove 50µL add to trash 50µL Trash
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Creating standards using serial dilution
20. Draw a diagram of the 12 well plate in your notebook
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Creating standards using serial dilution
Calculate the concentration in each well and annotate your notebook drawing. Show calcs in notebook 1,000 ng/ml 500 ng/ml 250 ng/ml 125 ng/ml 62.5 ng/ml 31.25 ng/ml 15.63 ng/ml 7.81 ng/ml 3.91 ng/ml 1.95 ng/ml 0.98 ng/ml 0 ng/ml
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ELISA Time! Testing for who is infected
24. Place standards strip off to the side 25. Label other microtiter strip as below 26. Record patient names in notebook Patient initials Patient initials
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ELISA Time! Testing for who is infected
27. Add 50µL “+” control to labeled wells Patient initials Patient initials
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ELISA Time! Testing for who is infected
28. Add 50µL “-” control to labeled wells Patient initials Patient initials
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ELISA Time! Testing for who is infected
29. Add 50µL patient 1 serum Patient initials Patient initials
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ELISA Time! Testing for who is infected
30. Add 50µL patient 2 serum Patient initials Patient initials
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ELISA Time! Testing for who is infected
31. Wait 5 minutes Patient initials Patient initials
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ELISA Time! Testing for who is infected
Concept Corner Protein in solution start sticking to the polystyrene of the microtiter plate Patient initials Patient initials
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ELISA Time! Testing for who is infected
Concept Corner Patient initials
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ELISA Time! Testing for who is infected
Polystyrene (plate) Protein (Antigen) Concept Corner Hydrophobic interactions Proteins stick to the polystyrene because of the interaction of the protein’s hydrophobic residues with the benzene rings of the polystyrene
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ELISA Time! Testing for who is infected
For both microtiter strips tap liquid out of wells onto papertowels, discard top papertowel
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35. Fill wells with wash buffer
ELISA – WASH CYCLE 35. Fill wells with wash buffer Patient initials
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ELISA – WASH CYCLE Tap liquid out of wells onto papertowels, discard top papertowel
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ELISA – WASH CYCLE 38. Repeat Wash Cycle
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ELISA Time! Testing for who is infected
39. Add 50µL Primary Antibody “PA” to all wells Patient initials Patient initials
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ELISA Time! Testing for who is infected
40. Incubate 5 min Patient initials
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ELISA Time! Testing for who is infected
Concept Corner Patient initials The waiting period is so that the primary antibody can find and stick to any antigens stuck to the microtiter plate. Antibodies due this with a very high specificity.
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ELISA Time! Testing for who is infected
Concept Corner Patient initials
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ELISA Time! Testing for who is infected
Variable region Light chain Heavy chain constant region 3,368,600 human antibody combos Concept Corner The human genome has 25,000 or less genes, but we are able to make almost 3.5 million types of antibodies and this all comes down to a very cool translationaly trick where 3 different regions can be combined in different patterns to generate all of those different antibodies. The variable region at the far end of the “Y” is where the antibodies protein residue interface with the antigen, so most changes in translation effect this area. The constant regions are what allow us to make antibodies against other antibodies as we will see later.
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38. Repeat Wash Cycle 2 times
ELISA – WASH CYCLE 38. Repeat Wash Cycle 2 times
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ELISA Time! Testing for who is infected
42. Add 50µL Secondary Antibody “SA” to all wells Patient initials Patient initials Patient initials Patient initials
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ELISA Time! Testing for who is infected
43. Incubate 5 min Patient initials
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ELISA Time! Testing for who is infected
Concept Corner Patient initials
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ELISA Time! Testing for who is infected
Concept Corner Patient initials The secondary antibody has an Enzyme Linked to the constant region hence Enzyme Linked ImmunoSorbent Assay. This enzyme will ultimately be used on a substrate that will give us a chromogenic response.
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ELISA Time! Testing for who is infected
Concept Corner Amplification of signal Introduce HRP (Horseradish Peroxidase) for colormetric detection Patient initials The secondary antibody does two things – it amplifies the signal in that it can have multiple antibodies bind to 1 primary antibody and from a manufacturing point of view its hard to make the enzyme linked antibody, so if you can just make one of those that attacks all antibodies from a given organism you can produce the primary antibodies for much cheaper and make the entire processes less expensive.
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ELISA Time! Testing for who is infected
Concept Corner Antigen = chicken gamma globulin Primary Antibody = anti-chicken polyclonal antibody Secondary Antibody = goat anti-rabbit conjugate to HRP The antigen that is used in this kit is chicken Gamma Globulin. Polyclonal antibodies are made in a rabbit model against the chicken Gamma Globulin. The rabbit antibodies are put in goats in such a way as to develop sensitivity to the constant region of the rabbit antibodies and this goat antibody has the enzyme linked to it after they are harvested.
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38. Repeat Wash Cycle 3 times
ELISA – WASH CYCLE 38. Repeat Wash Cycle 3 times
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ELISA Time! Testing for who is infected
45. Add 50µL Substrate “Sub” to all wells Patient initials Patient initials Patient initials Patient initials
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ELISA Time! Testing for who is infected
46. Incubate 5 min – watch for color development Patient initials
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ELISA Time! Testing for who is infected
Concept Corner Patient initials Upon addition of the substrate the horseradish peroxidase enzyme that has been linked to the secondary antibody can begin to modify the substrate TMB which is usually colorless into its blue colored product. The blue development tells you that an antigen was present in the original body fluid sample
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ELISA Time! Testing for who is infected
Concept Corner Patient initials
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ELISA Time! Testing for who is infected
Concept Corner
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ELISA Time! Testing for who is infected
47. Record results in your notebook 48. Note which patients tested positive 49. Using your standards determine the level of infection your patients have (ng/ml) Qualitative => estimate “biospec” Quantitative => spectrophotometry Patient initials
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How to get quantitative data (real world)
The iMark micropalte reader can read the absorbance of all the samples in 30 seconds and you can have your students spend time actually doing data analysis.
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How did the disease spread?
50. Share your results and gather the other groups results. Based upon antigen concentrations in patients propose the order by which the patients were infected, starting from Sue.
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Bio-Rad’s Immuno Explorer Lab
What did we use today? Bio-Rad’s Immuno Explorer Lab EDU
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