Research & Development Scientist & PCR Machine Engineer
Experimental Protocol Planner
Experimental Protocol Planner
PCR Machine Engineer
PCR Machine Engineer & Research & Development Scientist
LAB 1 WRITE-UP
Initial Machine Testing
The Original Design
This machine is called an Open PCR machine. PCR stands for polymerase chain reaction, and this machine helps us create specific strands of DNA. It can hold 16 tubes of DNA and is compatible with any computer that has the appropriate downloaded software. The machine goes through a series of steps to recreate the DNA. First, it heats up to break apart the DNA strands. Then, it cools down to allow polymer chains to attach to the target DNA sequence. Once the primers are attached, the machine will heat up again so that the protein in charge of DNA construction will activate and bind to the polymers and then start to build the DNA sequences that are targeted. This machine is capable of replicating millions of segments of a specific DNA sequence in just an hour or two. This machine, like many others, can be improved but for standard use, this machine works fine as is. If we improve this machine, the process that the machine goes through will most likely be the same but the hardware of the Open PCR machine may be changed. For example, if we wanted to make the amount of time for each cycle shorter, we could improve the heating elements of the machine so that the heating and cooling will be faster and more effective.
Experimenting With the Connections
When we unplugged the mounting plate from the open PCR circuit board, the display screen on the PCR box did not work.
When we unplugged the white wire that connects the open PCR circuit board to the heating block, there was no temperature reading on the display screen.
(First Open PCR test: 10/25/12. We had a successful and simple run of PCR)
Polymerase Chain Reaction
Components of the PCR Master Mix
1. Modified Taq DNA polymerase
4. reaction buffers
1. Thaw the GoTaq Colorless Master Mix at room temperature. Vortex the Master Mix, then spin it briefly in a microcentrifuge to collect the material at the bottom of the tube.
2. Prepare the following reaction mix on ice:
Reagents and volumes used in PCR replication
3. If using a cycler without a heated lid, overlay the reaction mix with 1-2 drops of mineral oil to prevent evaporation during thermal cycling. Centrifuge the reaction mix in a microcentrifuge for 5 seconds.
4. Place the reactions in a thermal cycler that has been preheated to 95 degrees Celsius. Perform PCR.
How To Amplify A Patient's DNA Sample
1. Denaturation: a 2-minute denaturation at 95 degrees celsius.
2. Annealing: perform the reaction about 5 degrees Celsius below the calculated melting temperature of the primers and
increasing the temperature in increments of 1°C to the annealing temperature; this should occur anywhere between 30 seconds and 1 minute.
3. Extension: performed between 72-74 degrees Celsius, extension allows 1 minute for every 1 kb of DNA to be amplified; the suggested time for extension is 5 minutes.
4. Refrigeration: refrigerate the tubes at 4 degrees Celsius for several hours; this will minimize the opportunity for DNA polymerase to continue to be active at higher temperatures.
5. Cycle Number: the optimal amplification is 25-30 cycles, but up to 40 may be performed.
1. turn on the excitation light using the switch for the Blue LED.
2. Place your smart phone on the cradle at a right angle from the slide.
3. Turn on the camera setting on the smartphone. Turn off the flash and set the ISO to 800 or higher and increase the exposure to maximum. You should also turn off the autofocus, if possible, and make sure that you can take an image where the drop on the slide will be in focus.
4. Adjust the distance between the smartphone on its cradle and the first two rows of the slide so that it is as close as you can get without having a blurry image.
5. The pipette should be filled with liquid only to the bottom of the black line. Then, carefully place two drops of water in the middle of the first two rows of the slide using the plastic pipette. Then add two more drops. The drop should then be pinned and look like a beach ball. It should be between 130-160 μL.
6. Align the drop by moving the slide so that the blue LED light is focused by the drop to the middle of the black fiber optic fitting on the other side of the drop (you will see that it has a small opening that is used for spectral measurement).
7. Cover the fluorimeter with the light box, but make sure you can access your smartphone to take the image. The light box should be used to remove as much stray light as possible, but do not worry if you have some light.
8. Take three images of the drop of water. Do not move your smartphone.
9. Remove the box and be careful not to move your smartphone. If you want to adjust for any movement, use the ruler provided to measure the distance so that you can return to that location. You can also use ImageJ to compensate for moving the camera, but it makes the analysis more complicated.
10. Use a clean plastic pipette to remove the water drop from the surface.
11. Push the slide in so that you are now in the next set of two holes.
12. Repeat steps 5-10 four more times so that you have now imaged all 5 positions on the slide.
13. Record the type of smartphone you used, the distance from the base of smartphone cradle to measurement device, and attach one image for each position of the drop.
Sample Labels and Patient Numbers
Image J Procedure
1. Search Image J in Google and then download Image J
2. Open Image J then click "file" and click "open" and open the image you want to analyze
3. Once your image is open click "analyze" and then click "set measurements" and check the boxes "area" "integrated density" and "mean gray value" leave the rest of the boxes empty
4. now click "image" then click "color" and then click "split channels"
5. This will split your image into three, you will use the one that is marked as the "green" picture, cancel the others
6. Activate the oval tool
7. draw the best oval you can around the drop and then press the control button+ the "m" key
8. Move the oval over to the background (the black around the picture) and press the control button and the m key again
9. repeat steps for all pictures
10. Save your data in an excel format by clicking "file" and then clicking "save as" then save the file with the name you want
Research and Development
Baye's Rule allows one to use all data available, not only to analyze it but to also understand the limitations of tests such as cancer diagnostics.
Baye's Rule equation: p(A/B)= (p(B/A)p(A))/p(B)
Specific Cancer Marker Detection - The Underlying Technology
The r17879961 cancer-associated sequence (AAACTCTTACACTGCATACA) will produce a DNA signal because of its nucleotide variation (ACATTGC to ACACTGC). This T-C change results in an isoleucene to threonine substitution. In a study in Finland, patients with colorectal cancer (CRC), the most common cancer associated with the DNA sequence change, had the allele 7.8% of the time while patients without CRC had the allele in 5.3% of patients, showing a significantly higher association in CRC patients. PCR detection will only give a signal if this allele is present.
| Sample || Integrated Density || DNA μg/mL || Conclusion
| PCR: Negative Control || 13908255 || 1.019586396 || negative
| PCR: Positive Control || 27282151 || 2 || positive
| PCR: Patient 1 ID 43417, rep 1 || 35526894 || 2.604405642 || positive
| PCR: Patient 1 ID 43417, rep 2 || 19073943 || 1.398272666 || positive
| PCR: Patient 1 ID 43417, rep 3 || 29391013 || 2.154596461 || positive
| PCR: Patient 2 ID 11260 , rep 1 || 1903450 || 0.139538118 || negative
| PCR: Patient 2 ID 11260, rep 2 || 5214727 || 0.382281221 || negative
| PCR: Patient 2 ID 11260, rep 3 || 5099077 || 0.373803151 || negative
- Sample = Describes sample number and patient
- Integrated Density = The Integrated Density of the Drop minus that of the background
- DNA μg/mL = 2 * IntDen of Sample/IntDen of Calf Thymus
- Conclusion = Whether exponential DNA replication has occured
"GoTaqÂ® Colorless Master Mix (M714) Product Information." GoTaqÂ® Colorless Master Mix Protocol. Promega, 2012. Web. 15 Nov. 2012. <http://www.promega.com/resources/protocols/product-information-sheets/g/gotaq-colorless-master-mix-m714-protocol/>.