MLAB 2479 Molecular Diagnostics Techniques Laboratory 3: Micropipettes Points: 20 Objectives 1. Identify the parts of a micropipette and state the function of each part. 2. Demonstrate the proper use of micropipettes by: a. Selecting proper pipette for task b. Setting the correct volume c. Proper operation of plunger d. Selecting proper tip for pipette e. Exam pipette tip for flaws f. Attaching and discarding pipette tips g. Drawing up sample using proper orientation. h. Dispensing sample 3. State the reason the pipette tip should be immersed only a few milliters below the fluid surface. 4. State what may occur if the plunger is allowed to snap up. 5. State when the following types of tips should be used: sterile, barrier. 6. Demonstrate the proper filling and dispensing of fluids using a micropipette. 7. State 8 precautions which must be followed when using micropipettes. 8. Given a diagram of a micropipette volume readout, correctly state the volume indicated. Discussion Micropipettes are used extensively in molecular diagnostics to accurately and precisely deliver small volumes of liquid. The correct use of micropipettes is essential to ensure accurate volume delivery and to prevent damage to these expensive pieces of equipment. It is crucial that, prior to use, the student become familiar with function of the parts, function and use of the micropipette. Most micropipettes have the following basic parts: 1. Volume adjustment knob – turned to adjust volume 2. Volume indicator 3. Plunger button – aspirate and dispense 4. Tip ejector button – discard tip after use 5. Volume adjustment knob 6. Plastic shaft 7. Tip ejector arm – discard tip after use Laboratory 3 Micropipettes 1 Test your knowledge: http://www.public.coe.edu/ibench/pipet/partsquiz.htm . Does not work with FireFox Adjusting the Volume Volumes needed for molecular procedures are tiny and proper measuring is essential to ensure accuracy of results and prevent contamination. The measuring ranges for the micropipettes most frequently used are: P10 - 1.0-10.0µL P20 - 2.0-20.0 µL – yellow tips P100 -10.0-100.0 µL – yellow tips P200 - 20.0-200.0 µL P1000 - 100.0-1000.0 µL – should only be used for volumes 200 or greater The black volume adjustment dial near the top of the micropipette allows you to adjust the volume that is measured. It can be dialed to the left or right to increase or decrease the volume. The digital readout shows the volume that will be measured. As you turn the volume adjustment dial, the numbers in the digital readout will change. The digital readout has three numbers which correspond to different volumes on the different size pipettes. In a P100 the top number refers to 1000’s of µL, the middle number refers to 100’s of µL and the bottom number refers to 10’s of µL. In a P200, the top number refers to 100’s of µL, the middle number refers to 10’s of µL and the bottom number refers to µL In a P20, the top number refers to 10’s of µL, the middle number refers to µL, and the bottom number refers to 1/10th of µL. When looking at the volume display the black digits indicate microliters; the red digits indicate tenths and hundredths of microliters. On P1000 micropipettes, the red digits indicate milliliters and the black digits indicate microliters. Never adjust a micropipette outside of the range! .When setting the volume always dial down to the volume setting. This prevents mechanical back lash from affecting accuracy. Otherwise precision and accuracy will be affected. Pipette Tips Liquids are never drawn directly into the shaft of the pipette. Instead, disposable plastic tips are attached to the shaft. There different types of tips. Select the appropriate tip for the pipette used. There are several different types of tips available. Barrier tips provide the best protection from air contamination, but they do not always fit on the smallest micropipettes. Sterile tips are used to ensure that samples are not contaminated. Do not use sterile tips for non-sterile applications. Gel loading tips are used to load samples into gel for electrophoresis. Do not use gel loading tips for non-gel-loading applications. These tips are expensive. The tips are racked in plastic boxes with covers. Be careful to not touch the tips to prevent contamination. The box should be closed when not in use to prevent airborne contamination. Laboratory 3 Micropipettes 2 Tips must seal properly on the shaft to assure an airtight seal and avoid leaks or poor accuracy. Inserting tip: 1. Select the correct size tips. 2. Open box without touching the tips with your hands. 3. Insert the micropipette shaft into the tip and press down firmly. This will attach the tip to the shaft. 4. Close the box without touching the tips with your hands. To avoid contamination a fresh tip should be used for each measurement. Never immerse the tip more than a few millimeters below the surface of the fluid. A deeper immersion can cause fluid to cling to outside of tip, delivering more fluid than was desired. Tips should be discarded in a cardboard biohazardous waste container. Plunger Settings There are two stops on a micropipette plunger: 1. The plunger is slowly depressed to the first stop. This is where initial resistance is felt. The tip is inserted into the liquid and the plunger slowly released to aspirate the sample. 2. The second stop is to dispense, the plunger is carefully pushed down beyond the initial resistance until it is in contact with the body of the pipette. Applying pressure to the second stop results in dispensing the correct volume of fluid. Once the sample is dispensed depress the tip release button located near the plunger to discard the pipette tip. View the video on correct use: http://www.youtube.com/watch?v=8Afh_0IAfrQ&feature=related http://www.youtube.com/watch?v=waZfBR7fk_8&feature=related The plunger should be depressed in a smooth motion to the first stop. This is the position of initial resistance and is the level of depression that will result in the desired volume of liquid being transferred. Never let the plunger snap up. This can cause air bubbles to fill the tip, destroying accuracy and may eventually lead to damage to the micropipette. Always keep the micropipette in vertical position to ensure that no liquids enter the micropipette or drip from the disposable tip. Never the lay the micropipette down when liquid is in the tip. This may allow fluid to enter the pipette and ruin it. Dispense the fluid into the lowest possible place in the receiving vessel. Use of Micropipette 1. Depress plunger to first stop. 2. Immerse tip approximately 3mm into the sample solution (Step 1). 3. SLOWLY release the plunger until it reaches the original position (Step 2). Watch as the solution is drawn up into the tip. DO NOT release plunger quickly as this may result in air bubbles being drawn up or splashing solution on the non-sterile shaft. 4. Withdraw tip from solution and place tip against the side wall of receiving container (Step 3). 5. Smoothly depress the plunger to the first stop (Step 4) and continue to depress until the second stop is reached (Step 5). 6. Remove the tip from the receiving container and slowly allow release the plunger. DO NOT let the plunger snap back into place. 7. Remove the disposable tip by depressing the tip ejector button (Step 6). 3 Laboratory 3 Micropipettes Precautions Micropipettes are expensive! To keep them functioning properly it is crucial that they be handled with care. Please follow these rules to keep them in working order: 1. Never adjust the volume beyond the range of the micropipette. No micropipette should be adjusted below zero µL. The P20 should never be adjusted above 20 µL , the P200 over 200 µL and the P1000 over 1 mL 2. Never force the volume adjustor dial. If the knob becomes difficult to adjust it probably means that you are exceeding the limits for the pipette or the pipette is damaged. Report the problem to your instructor. 3. Do not drop the micropipette. 4. Always use a smooth motion when using the micropipette. This will help give accurate measurements and also prevent breakage of the pipette. There should not be “snapping” noises. 5. Always keep pipettes upright. 6. Never lay a pipette with liquid in the tip on the bench. 7. Always choose the appropriate size pipette for the volume you are measuring. 8. Always dispose of tips in the appropriate waste receptacle. Validation Micropipettes must be validated on a regular basis to ensure delivery accuracy. There are several different methods with gravimetric and colorimetric (spectrophotometric) being the most common. In the gravimetric method a balance is used, preferably one with a draft shield since the volumes are so small. The micropipette is set at a volume and this volume is dispensed 10 times into a weighing pan which has been tared. Each time a volume is dispensed the weight is recorded. In the colorimetric method a blank and dye solution are used. A colored solution is pipetted into a volume of water, followed by measuring the absorbance of the solution. Laboratory 3 Micropipettes 4 USE OF VWR MICROPIPETTES P10, P20, P100, P200 AND P1000 Updated May 19, 2006 Appearance of Analog Readout at Minimum and Maximum Volumes of Micropipettes P1000 (100-1000 μL) Minimum, 100 μL 0 1 0 Maximum, 1000 μL 0 2 0 Maximum, 1000 μL 0 2 0 Maximum, 200 μL 0 5 0 Maximum, 200 μL 0 2 0 Maximum, 20 μL 0 1 0 Maximum, 10 μL 1 0 0 P1000 (200-1000 μL) Minimum, 200 μL 1 0 0 P200 (20-200 μL) Minimum, 20 μL 2 0 0 P200 (50-200 μL) Minimum, 50 μL 2 0 0 P20 (2-20 μL) Minimum, 2 μL 2 0 0 P10 (1-10 μL) Minimum, 1 μL Laboratory 3 Micropipettes 1 0 0 5 Procedure Supplies 1. Set of micropipettes 2. Pipette tips appropriate for micropipette 3. microtubes 4. colored solution Procedure 1. Practice with a P100, P20 and P10 2. Practice adjusting the volumes on each of the micropipettes. Look carefully at the numbers and review the chart to determine what volume the micropipette is set at. 3. Practice finding the stops on the micropipette by depressing the plunger to the two stops. 4. Load tip onto the micropipette. 5. Use proper technique to draw and dispense the colored solution with each of the micropipettes three times each, resetting the volume control each time. 6. Demonstrate to your instructor the dispensing of 10 μL of solution using the P20. Laboratory 3 Micropipettes 6 Name ________________________________________ Date ___________________ MLAB 2479 Molecular Diagnostics Techniques Laboratory 3 Micropipettes Laboratory Results Points: ______________ YES 1. 2. 3. 4. 5. NO Correct micropipette used. Micropipette set to correct volume. Tip applied securely to micropipette. Correct technique used for aspirating and dispensing. Ejected tip properly into approved container. Laboratory 3 Micropipettes 7 Name ________________________________________ Date ___________________ MLAB 2479 Molecular Diagnostics Techniques Laboratory 3 Micropipettes Points: 22 Instructions: Copy/paste the following study questions into word processing document. Answer the questions Save the file as “Lab4MicropipettesYOUR NAME” Submit to “Assignments” in BlackBoard Study Questions Write the correct term used for each of the numbered items on this micropipette. (3.5 points) 1. 2. 3. 4. 5. 6. 7. Laboratory 3 Micropipettes 8 8. State the measuring range for each of the following micropipettes (4 points): a. P10 b. P20 c. P100 d. P200 9. After attaching a pipette tip to the micropipette what should be done to the box of tips? (0.5 point) 10. Describe the purpose of the two stops on a micropipette plunger. (2 points) a. First stop b. Second stop 11. Explain why the micropipette plunger should never be allowed to snap back in place. (1 point) 12. Why should the pipette tip never be immersed more than a few millimeters below the surface of the fluid? (1 point) 13. How is the tip removed from the micropipette? (1 point) 14. State the volume, using the correct units, of the following readout on a P10 micropipette (1 point): 0 2 0 15. List 8 precautions which must be followed when using a micropipette. (8 points) a. b. c. d. e. f. g. h. Laboratory 3 Micropipettes 9