OUR TEAM

LAB 1 WRITE-UP

Initial Machine Testing

The Original Design
The PCR is a device used by scientists to copy specific sections of DNA strands and amplify them. PCR stands for Polymerase Chain Reaction. With the usage of heating and cooling, the DNA strands are separated at extreme temperatures within the device. With the addition of polymerases, complementary strands to certain segments are copied multiple times within a matter of hours from one strand of DNA. Through these processes, specific segments are amplified to be observed so one can find and diagnose diseases, viruses, or bacteria. The samples inside the heating plate experience all the different conditions. The usb connection to the computer allows one to alter the experiment to reach fixed values and observe the changes within the sample.

Experimenting With the Connections

When we unplugged part 3 from part 6, the display screeen turns off and shows nothing at all.

When we unplugged the white wire that connects part 6 to part 2, the temperature sensor malfunctions and displays the incorrect temperature on the LCD screen.

Test Run

The test was run on Wednesday, October 23rd, 2013 at 1:08 PM.

Protocols

DNA Sample Set-up

Materials
PCR Reaction mix, 8 tubes (50 micrometers), DNA primer mix, disposable pipette

DNA Sample Set-up Procedure
1) Label all different tubes so we don't mix up any of the results.
2) Add 25μL of DNA sample mix to each corresponding tube, using different disposable pipette tips for each tube.
3) Place the tubes into a thermocycler
4) Program the Thermocycler to run as follows so PCR occurs.

Thermocycler Program

   1. 1 Cycle at 95°C for 3 minutes

   2. 35 Cycles at 95°C for 30 seconds, 55°C for 30 seconds, 72°C for 30 seconds

   3. 72°C for 3 minutes

   4. Hold the mix at 4°C 

PCR Reaction Mix
The PCR Reaction mix has Taq DNA Polymerase, Magnesium Chloride, and deoxynucleotide triphosphates.

DNA/ primer mix
DNA synthesis is when you make two identical copies of a molecule of DNA from a single original molecule. The primer is the beginning point for the DNA synthesis process. It is a strand of nucleic acids that accepts new nucleic acids to match the strand being copied. The DNA primer mix has the same forward primer and reverse primer for all tubes and a different template DNA in each tube.

Research and Development

PCR - The Underlying Technology

(Add a write-up, essay-style, organized into paragrpahs with descriptive headers, based on the Q&A's from Section three of your worksheet)

Components of PCR:

PCR, or polymerase chain reaction, is used to amplify DNA to diagnose disease, map the human genome, or even to solve crimes. There are several components involved in completing PCR-- the template DNA, the primers, the Taq polymerase, magnesium chloride, and deoxyribonucleotides. The purpose of each component is as follows:

Template DNA: The template DNA contains the target sequence, and is the basis for the amplification. Without the template, the target sequence cannot be amplified, and the primers have nothing to bind to, and polymerase has nothing to copy.

Primers: The primers bind to each single-stranded DNA and functions almost as a signal for Taq polymerase to begin the construction of the complementary sequence. Furthermore, the presence of both forward and reverse primers ensures that the target sequence, in particular, will be amplified, because the primers are made specifically for the sections of the template DNA which include the target sequence.

Taq polymerase: This is an enzyme which constructs the complimentary sequence to the single strands of the template DNA.

Magnesium chloride: The magnesium chloride acts as a catylyst for the polymerase reaction, and helps the reaction move along faster.

Deoxyribonucleotides: These are free-floating nucleotides, and these are the bases that are used by Taq polymerase to create the complimentary sequence for the single-stranded DNA.

PCR Cycle: The aforementioned materials are the key components in a PCR reaction. The first step of PCR is to heat the DNA to around 95 degrees celsius for around 3 minutes, and this allows the DNA to denature and unwind into two separate strands. The temperature, which is near boiling, and the required time, are both imperative to this reaction because this is the amount of energy that is required to break the hydrogen bonds between the nucleotides of the complementary strands. Once the DNA denatures, the temperature must be lowered to 57 degrees for around 30 seconds. The lowering of temperature allows for the forward and reverse primers to bind onto each single stranded-DNA. After 30 seconds of this, the temperature is once again re-heated to 72 degrees, the ideal temperature for Taq polymerase. Taq polymerase now begins constructing complementary strands to each single template strand. This continues for around 3 minutes. This cycle repeats itself over and over, until the "target sequence" is amplified more so than the original template DNA. The strands are complementary, and are created with paired nucleotides-- adenine binds with thymine, and cytosine with guanine. Base pairing, which is done through hydrogen bonds, are what create the "spiral staircase" of DNA structure. This is also what allows primers to the template strand.

(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 PCR video/ tutorial might be useful. Be sure to credit the sources if you borrow images.)