# Difference between revisions of "BME103:T130 Group 5 l2"

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# OUR TEAM

 Name: Wade PatrickMachine Engineer Name: Liann KleinMachine Engineer Name: Haylee PoncyProtocol Planner Name: Kyle LabbanProtocol Planner Name: Alexandria LamR&D Scientist

# LAB 2 WRITE-UP

## Thermal Cycler Engineering

Our re-design is based upon the Open PCR system originally designed by Josh Perfetto and Tito Jankowski.

System Design

Key Features
The major change of the PCR machine was that eight extra wells were added to increase the sample size from 16 to 24. With the addition of the extra wells, the machine will be able to run more samples.

Instructions

## Protocols

Materials

Supplied in the Kit Amount
PCR Machine 1
Extra screws 5
CD containing programming application 1
Operations instruction manual 1
10 ft Extension cord 1

Supplied by the User Amount
Standard sized test tubes 16
DNA Primer Amounts vary per experiment
DNA Samples Amounts vary per experiment
Computer 1
Pipettes 16
Sybr Green Amounts vary per experiment
Refrigerator 1
Power source N/A

PCR Protocol

Kyle - Create a step-by-step procedure for setting up and running PCR reactions. Your instructions should include everything from adding reagents to the tubes, to programming the PCR machine and running the reaction.

DNA Measurement Protocol

1. Collect samples generated from "PCR Protocol".
2. Using separate pipettes for each individual sample, transfer the 150μL into the larger test tubes containing 400 mL of the buffer solution.
3. Set up the fluorimeter machinery as instructed, ensuring that the system is devoid of any light, as it may prevent accurate readings. Use a "blank" sample using distilled water to ensure all machinery and processes are in order.
4. Using the fluorimeter equipment, add two drops of each sample onto the glass plate, followed by two drops of SYBR green. When placing the drops, one should ensure that they are initially spaced out, as they will combine when more substrate is added.
5. Close the system down, again preventing any light from entering the system. To record the results, a photo will be used to visually measure the presence of a positive or negative result. The fluorimeter set comes with a stand to enable a SmartPhone to be utilized. Individuals will obtain the most accurate results by setting the ISO at 800 and turning off the flash setting.
6. Using a different pipette for waste products, clear the sample from the glass tray, move the tray forward, and repeat with the next sample. The waste samples can be placed in a separate plastic cup, and eventually disposed of in a biohazard bin.
7. Repeat this process until all samples have been measured and photographed.

Fluorimeter Set Up

Photo origin: http://openwetware.org/wiki/BME103:T130_Group_9

To save an image:

1. After taking all pictures with the SmartPhone, upload them to a computer using either an USB cord or via text messaging.
2. Open the photographs using any basic photography program on the computer. If the files are not already in the .jpg format, convert them.
3. Labeling all photographs, open the OpenWetWare program and select "Upload file".
4. Select desired images and upload them to the wiki, taking note of their file names.
5. Select "edit" on the desired page, and insert the photograph on the page by inserting its file name.
Positive Result
Negative Result

## Research and Development

Bayesian statistics

A=Alzheimer's B=Positive test Result

${\displaystyle P(A/B)=P(B/A)P(A)/P(B)}$

Background on Disease Markers

Alzheimer's disease is a form of dementia that occurs with loss of brain function. It affects multiple areas of the brain associated with memory, language, personality, perception, and cognitive skills. The disease typically manifests itself through forgetfulness, but gradually progresses to inability to perform basic functions, speak, and recognize family members. Currently, there is no cure. Treatment tries to slow down the disease or at the least, manage symptoms.

An SNP related to Alzheimer's disease is rs1466662 (http://www.ncbi.nlm.nih.gov/projects/SNP/snp_ref.cgi?rs=1466662). It is located on chromosome four, the intron region of NM_001142552.1 and arises from a missense mutation replacing an A with a T. It is the most significant SNP outside of the SNP linked to APOE.

Primer Design

The backwards primer is TAT TTT TAG AAG CGA TAA AA. The forwards primer is GCC TCT TTG CCC TCT GTT TT. An allele not containing the disease will not have the sequence that allows the primers to bind. If the primers cannot bind, then that means Taq polymerase does not know where to bind. If Taq polymerase does not bind, then the sequence does not get replicated. Therefore, there will be no PCR product. Conversely, if the disease allele is present, the primers will bind. Taq polymerase will then be able to bind to the DNA and replicate the strands, creating more double-stranded DNA yielding a PCR product.

Illustration

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