Difference between revisions of "BME103:T930 Group 12"
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* '''Sample''' =
* '''Sample''' = a small piece of information on the research area. In this experiment, the samples are DNA of two patients. A positive and negative sample were also given to compare the data collected from the DNA of the patients.
* '''Integrated Density''' =
* '''Integrated Density''' = the sum of the values of pixels in an image. A software was provided that gave the summation of the pixels of the image uploaded.
* '''DNA μg/mL''' =
* '''DNA μg/mL''' = the DNA concentration (micro grams per ml). An equation was given to find the concentration. The equation was x=(2*y)z. x=concentration, y=INTDEN of sample (with background subtracted), z=INTDEN of DNA Calf Thymus (with background subtracted)
* '''Conclusion''' =
* '''Conclusion''' = states whether the patient contains the cancer gene. A positive conclusion means he does while no signal states he does not. The conclusion was based off of the DNA concentrations of the positive and negative samples.
Revision as of 22:01, 14 November 2012
|BME 103 Fall 2012|| Home |
Lab Write-Up 1
Lab Write-Up 2
Lab Write-Up 3
Course Logistics For Instructors
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LAB 1 WRITE-UP
Initial Machine Testing
The Open PCR(polymerase chain reaction) machine cycles samples of DNA through different temperatures. DNA samples are placed in the 16 tube PCR block and the PCR is set to a certain number of temperatures and cycles.
Experimenting With the Connections
When we unplugged the LCD plate from the Open PCR circuit board, the display of the machine turned off (since it stopped sending data to the display). The circuit board sends electricity through the wires, therefore if the LCD plate is not plugged into the circuit board, it will not work.
When we unplugged the white wire that connects the Open PCR circuit board to the 16 tube PCR block, the machine could not record the temperature. This defeats the whole purpose of the machine since it needs to heat the tubes to the specific temperatures.
On October 25, 2012, we experimented with the Open PCR. The experience was not pleasant as the machine took an hour and forty minutes to finish the experiment. The time estimate was also incorrect as it fluctuated. Fortunately, the experiment was a success as the machine finished the testing, revealing whether the DNA contained mutations.
(Write the date you first tested Open PCR and your experience(s) with the machine)
Polymerase Chain Reaction
The process of the polymerase chain reaction (PCR) is used to amplify specific sequences of DNA and create thousands to millions of copies. The process depends on thermal cycling, which continually heat and cool the samples in order for DNA polymerase and primers to effectively replicate the specific DNA.
Male Patients: Test Tubes: 1-3
Female Patients: Test Tubes: 4-6
Cancer DNA Template: Test Tube: 7
Negative Control: Test Tube: 8
Research and Development
Specific Cancer Marker Detection - The Underlying Technology
•Template DNA- the sequence being detected.
•Primers- Initiate the start site for DNA replication.
•Taq polymerase- an enzyme that grabs bases, and matches them to the DNA strand, replicating the strand.
•Magnesium Chloride (MgCl2)- a cofactor that binds to Taq and helps it work more efficiently.
• dNTP’s -the individual nucleotides floating in the sample tube that will act as building block subunits to be used by the Taq.
The process is as follows:
•The sample is heated to 95 degrees Celsius to separate strands and expose the bases.
•The primers are added to the sample and it is cooled to 57 degrees Celsius so that the separated DNA strands try to reconnect. The primers will bind to the strands in the phase preventing them from reconnecting.
•The sample is then heated to 72 degrees Celsius and Taq enzymes attach and start replication, with the help of magnesium chloride to help the enzymes work more efficiently.
•The cycle is repeated many times
Here are step-by-step illustrations of how the primer binds to the wanted DNA template, and how the Taq polymerase amplifies the DNA:
Images from (http://openpcr.org/use-it/)
5' AACTCTTACAC/TTGCATACAT 3'
3' TTGAGAATGTG/AACGTATGTA 5'
To detect this sequence using open PCR, the primers must first be constructed. In this case, the reverse primer would be 5' AACTCTTACACTGCATACAT 3', and the forward primer would be 3' TGGTATAAGACATTCCTGT 5'. The forward primer is located 200 base pairs to the left of the reverse primer, attaching to the opposite strand. The strand needs to be at least 200 base pairs long so that the DNA may be easier detected if the results are positive. If the sample produces positive results, it means that the r17879961 gene is present, so the primers will bind to this gene, replicating exponentially and producing thousands to millions of copies of DNA. If the sample being tested gives us negative results and does not contain this sequence, there will only be around 30 replicated strands of DNA, rather than millions copies since the primers won’t bind to the gene.
The affected gene is checkpoint kinase 2, and in a study of 180 patients the mutation has been shown to occur in 1.1% of population, while the normal gene occurs in 98.9% of the population. The mutations have been linked most closely to prostate and colorectal cancer, but are also associated with Li-Fraumeni syndrome, breast cancer, sarcomas, and brain tumors. According to a study in Finland, the gene was observed in 7.8% of patients with colorectal cancer, and 5.3% of the healthy population (Kilpivaara et al., 2006).