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Lab Write-Up 1
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Lab Write-Up 3
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LAB 1 WRITE-UP
Initial Machine Testing
This is a solidworks rendering of the OpenPCR machine. The OpenPCR is an affordable alternative to costly clinical machines used to amplify particular DNA sequences. This interfaces with any computer with the proper software downloaded and the process of thermal cycling to conduct a variety of tests. This could be anything from paternity tests to test for genetic marks of cancer.
When we unplugged the display (part 3) from the power supply (part 6), the machine did not have power. The blue display screen did not turn on and appeared completely black.
When we unplugged the white wire that connects the power supply (part 6) to the heat block (part 2), the machine temperature on the display screen appeared incorrectly. Part 6 is responsible for recording the the internal temperature of the machine throughout the test.
Our first Open PCR test was conducted on Wednesday, October 24, 2012. While running our open PCR test, we experienced nothing but problems. We set the cycles to the appropriate temperatures and time intervals; the Initial cycle on 95°C for 30 seconds, the Denaturing cycle on 95°C for 30 seconds, the Annealing cycle on 55°C for 30 seconds, the Extending cycle on 72°C for 30 seconds, the final cycle on 72°C for 180 seconds, and the final hold at 20°C. Initially, our open PCR appeared to be running correctly for the desired two hour time interval. However, due to a cycling error, our timer extended to nearly three hours. Not only did our test exceed the desired time interval, but our time would not wind down. Our test constantly moved up and down between the times of two hours thirty minutes and two hours and fifty minutes. When our time got close to two thirty, more time would be added to our test. Also, our laptop was experiencing errors. Our laptop received an application error notice multiple times, each time disrupting our process. As a result of these complications, when the two hours elapsed we only reached step seventeen of thirty. We were forced to prematurely end our test. Therefore, we could not receive sufficient results. One way to improve on the quality and production of the Open PCR machine is to "stop it from cycling like a bitch."(Frea Mehta)
Polymerase Chain Reaction
1. Within a polymerase chain reaction everything is controlled by temperature. The high temperature(95 C) causes melting of DNA templates and primers by disrupting the hydrogen bonds. Next is annealing. The temperature is dropped down to 65 temporarily(20 seconds) to allow a piece of DNA to bind to your product from the initial step. The polymerase binds to the DNA template and DNA synthesis begins. Next is elongation, the DNA polymerase synthesizes a new DNA strand. This process is repeated to replicate numerous strands of DNA.
1. Heat denaturation- a. Heat the reactant , which causes melting of the DNA b. A DNA molecule sequence is targeted which is then separated into two strands c. Separation is because of hydrogen bonds breaking 2. Primer annealing a. Then you lower the temperature to 65 which allows a piece of the DNA to bind to the initial step product. b. Each strand of DNA molecule becomes annealed with an oligonucleotide primer complementary to either end of the target sequence. 3. Primers extension a. DNA polymerase is added and complementary strands are synthesized at 65-75 C b. Causes synthesis of a new strand in the direction of 5 to 3 direction
(Add your work from Week 3, Part 2 here)
Research and Development
Specific Cancer Marker Detection - The Underlying Technology
The NCBI database is used to isolate the sequence used and determine specific primers.
(BONUS points: Use a program like Powerpoint, Word, Illustrator, Microsoft Paint, etc. to illustrate how primers bind to the cancer DNA template, and how Taq polymerases amplify the DNA. Screen-captures from the OpenPCR tutorial might be useful. Be sure to credit the source if you borrow images.)