BME103:T930 Group 16
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Lab Write-Up 1
Lab Write-Up 2
Lab Write-Up 3
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LAB 1 WRITE-UP
Initial Machine Testing
When the heat sink is unplugged from the circuit board, the LCD screen is turned off. When we unplugged the white wire that connected the circuit board to the heating block the temperature reading on the LCD screen dropped drastically.
We first tested open PCR on October 18, 2012. We learned how to take accurate temperatures using the open PCR machine. Using open PCR we were able to make a polymerase chain reaction. In order for this to occur, open PCR had to send the DNA through different sets of temperatures to heat it up to separate the strands and expose the bases, then cool it down for the primers to bind to the sequences, and also heat it back up to attain an extension of the copy of the new DNA. Which was conducted in an hour and thirty minutes.
Polymerase Chain Reaction
To use the PCR machine we first obtained two patient DNA samples. Then we labeled eight test tubes with the patient number (three test tubes were labeled with patient one and the three others were labeled for patient two's DNA) and the last two were labeled as our positive or negative control. Once the tubes were labeled we transferred the DNA using pipettes into the corresponding tube that contained solution which would allow the DNA to be copied. This solution was a mixture of Taq DNA polymerase, MgCl2, dNTP's, forward primer and reverse primer. The Taq DNA help to catalyze the attachment of the dNTP's (or floating nucleotides) to make copies of the original DNA strand.
Here is the patient information:
Research and Development
Specific Cancer Marker Detection - The Underlying Technology
A Polymerase chain reaction is a machine that amplifies a single or a few strands of DNA to generate millions of copies of that DNA sequence. Using this technology scientists can determine whether a patient has a positive or negative result towards cancer. A method of getting this data is called the PCR detection method, a method that relies on thermal cycling, switching back and forth to melt DNA and then connect primers. This is a method that can be used to detect whether a patient has positive result for cancer, because a sample of DNA can be taken and whether that connects to the primers and creates a chain reaction, scientists can then determine whether this DNA is positive or negative towards cancer. An example of proving this method can be seen using the r17879961 SNP, a cancer-associated sequence, using the PCR detection method we can prove that r17879961 SNP is actually associated with cancer. Because it carries with the Polymerase chain reaction, and to further prove the patient has a positive result for cancer, we use fluorescent dye and if the DNA glows in the solution, then the results are positive for cancer.
(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.)