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SERIAL DILUTION, PIPETTING PRACTICProfessor of Biology and Chemistry University of Cincinnati Clermont College, Batavia OH 45103 |
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plan to perform a serial dilution |
3 July 1994, rvsd 26July95, 18Sept95, 23July96, 15Oct96, 21July97, 19July98, 18Sept00, 14July01, 18July04 |
tubes of a serial dilution. Relative concentration: 1x, 2x, 4x, 8x, 16x |
Serial dilutions are regularly used in microbiology when, for instance, initial concentrations of bacteria are orders of magnitude too high to perform a plate count, or for producing a series of regular dilutions as in titering serum. It has two advantages:
| Experimental plan:
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Notice that the concentration decreases exponentially as the dilution series progresses (in the following example, the relative concentrations are 16, 8, 4, 2, and 1.) Dilutions of antibodies or serum for titering are prepared in much the same fashion.
See handout on Dilutions for in-depth explanation of dilutions and sample problems. The handout on sterile delivery with pipets describes pipette use.
Illustrate the serial
dilution process in your notebook with labeled tubes and volumes involved
so that you fully understand what you will be doing before you begin the
exercise.
Per table of two students, each
performing his or her own experiment:
| EQUIPMENT | SUPPLIES |
| eight 16 x 150 mm tubes
two test tube racks (larger, fingered) ten 5 mL pipettes in 1000 mL beaker one 125 mL flask with 30 mL dH2O two 16 x 150 mm tubes, with 7 mL MB solution wax pencil one Brinkman Pipetor or pipet bulb one vortex mixer one spectrophotometer, warmed up two cuvettes in plastic test tube rack: Blank with 3 mL dH2O (marked "B") Sample (marked "S") one used pipet receptacle (plastic is best) |
7 mL of 0.0005 % methylene blue1
per student
(A609 = about 1.00) distilled water diluent in a repipet, set for 3 mL wipettes |
PREPARATIONS:
| Label the test tube with the stock solution of methylene blue "16x." | |
| Set up four dilution tubes in a teste tube rack: empty 16 x 150 mL tubes. Label the tubes 8x, 4x, 2x and 1x to indicate the relative concentration of dye which they will contain. | |
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Aliquot 3.00 mL of dH2O into each of these four dilution tubes. |
SERIAL DILUTIONS:
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Transfer 3.00 mL of the 16x (initial) methylene blue solution from tube #16 into tube #8, vortex #8 tube to mix well. (NOTE: If using a 5 mL pipet, 3 mL are contained when the meniscus is just touching the 2 calibration line. (You should be leaving about 4 mL in tube #16.) |
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Using a clean pipet, withdraw 3.00 mL from tube #8, add it to #4. Mix as before, using a vortex. |
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Using a clean pipet, withdraw 3.00 mL from tube #4, add it to #2. Mix as before. Here the class is performing several of the stages of the serial dilution. |
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Using a clean pipet, withdraw 3.00 mL from tube #2, add it to #1. Mix as before. When dilutions are done, 3 mL should remain in tubes #8, #4 and #2. Tube #1 should contain 6 mL. |
READ AND PLOT THE ABSORBENCY OF THE
DILUTION SERIES:
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Read the A609 of each dilution against a blank of distilled water. Begin with tube #1, and work your way up. In this way, you need not wash the cuvette each time, but touch off the last drop before adding the next dilution. |
| Plot a graph with the relative concentration of methylene blue (indicated by the tube number) as the ordinate (X axis) and absorbency at 609 nm as the abscissa (Y axis). Use the blank tube (zero methylene blue with an A609 = 0.000) as your first (zero) point. |
1 Stock solution of methylene blue is 0.3%: Dilute it 0.166 mL into 100 mL in dH2O to produce ~ A609 of 1.000.
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