OUR TEAM

LAB 5 WRITE-UP

Background Information

SYBR Green Dye
SYBR Green Dye is a molecular dye that binds to DNA. The green dye stains double-stranded DNA as well as single-stranded DNA, but with greater preference for the former. The resulting DNA-dye-complex emits a fluorescent green light, hence "SYBR Green."

Single-Drop Fluorimeter
The single-drop fluorimeter is an instrument that detects the amount of fluorescent material. The spectrofluorimeter operates by shining two high-intensity light beams at the sample.

How the Fluorescence Technique Works
[Instructions: In your own words]

Procedure

Smart Phone Camera Settings

• Type of Smartphone: iPhone 5S
• Flash: Inactivated
• ISO setting: N/A
• White Balance: N/A
• Exposure: N/A
• Saturation: N/A
• Contrast: N/A

Calibration

• The smartphone is aligned on the cradle so that the camera is focused on the illuminated drop from the side.

• Distance between the smart phone cradle and drop = 6.5 cm

Solutions Used for Calibration

Placing Samples onto the Fluorimeter
1.) First, turn on the excitation light and the camera then place the camera on the cradle with adjusting the height to focus on the drop sideways.

2.) Second, place 80 microliter drop of SYBR Green 1 on the slide then place 80 microliter of the sample over the SYBR Green.

3.) Third, take a photo of the fluorimeter after lowering the lid of the box, so that it removes as much of stray light.

4.) Finally, remove the box without moving the smartphone and record the sample. Repeat for all samples.

Data Analysis

Representative Images of Samples
[Shown to the right]

Image J Values for All Samples

Fitting a Straight Line

Graph 1.

PCR Results Summary

A polymerase chain reaction (PCR) was utilized to amplify the DNA from 2 patients identified here as 46296 and |16946. A positive and negative control were amplified alongside the patient’s DNA. PCR results were analyzed by |using SYBR Green and a blue light emitting diode (LED) capable of causing the SYBR to fluoresce if DNA was |present in the sample.

Before the patient samples could be analyzed, known concentrations of calf thymus DNA had to be used in |conjunction with the SYBR to create a curve fit correlating the calf thymus DNA concentration to the intensity |of fluorescence. An iPhone 5 was used to take snap shots of 160 μL droplets, consisting of 80 μL of calf thymus |solution that ranged from 0 – 5 μg/mL and 80 μL of SYBR Green. The photos were imported into Image J, a public, |java based program available through the National Institute of Health (NIH). Image J has a function that |calculates the integrated pixel density of image samples. The integrated density (RAWINTDEN) of the samples and |the known DNA concentrations were incorporated in Graph 1 above.