BME103 s2013:T900 Group4 L2

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''Circle analysis of DNA negative drop (0μg/mL)''
''Circle analysis of DNA negative drop (0μg/mL)''
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Revision as of 03:07, 2 April 2013

BME 103 Spring 2013 Home
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Lab Write-Up 1
Lab Write-Up 2
Lab Write-Up 3
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Contents

OUR TEAM

Name: Kinjal Ahir : (protocol) Procedure
Name: Kinjal Ahir : (protocol) Procedure
Name: Tuan Phan : Research & Design Specialist
Name: Tuan Phan : Research & Design Specialist
Name:Zach Young : Initial Machine Testing
Name:Zach Young : Initial Machine Testing
Name: Anna Essex : Initial Machine Testing
Name: Anna Essex : Initial Machine Testing
Name: Amelia Lax : Research and Design Specialist
Name: Amelia Lax : Research and Design Specialist


LAB 2 WRITE-UP

Background Information

SYBR Green Dye
SYBR Green I is a fluorescent dye that binds to double stranded DNA. This dye then fluoresces green when excited by blue light. SYBR green dye is very efficient at visualizing DNA, incredibly safe to users, and cheap, making it a prime dye for basic DNA displaying.

Single-Drop Fluorimeter
A fluorimeter is a device used to measure amounts of fluorescence. The device usually measures fixed wavelengths either by filters, monochromators or fixed diodes. Fluorimeters have two light detectors: one light detects the absorbance, while the other detects fluorescence emission.


Drops of DNA solution on flourimeter slide

How the Fluorescence Technique Works
The fluorescence technique measures the concentration of DNA in mixed liquids by adding a fluorescent dye and measuring the amount of fluorescence. This is done using a single drop fluorometer with a Teflon-coated glass slide. The slide's surface is not completely covered; circles of bare glass remain, which water sticks to, allowing drops of liquids to stay in place. Drops of DNA solution are placed on the glass circles along with SYBR Green I. Blue LED light from the fluorometer is aimed at the drops, exciting the dye and causing it to fluoresce. This fluorescence is then analyzed to determine the concentration of DNA in the solution.



Procedure

Smart Phone Camera Settings

  • Iphone 4
    • Flash: Off
    • ISO setting: Auto
    • White Balance: Auto
    • Exposure: Auto
    • Saturation: Auto
    • Contrast: Auto


Calibration

  • Place the smartphone on the cradle at a right angle
  • Fix the height of the fluorimeter so that the camera can take picture of the drop at a right angle
  • Distance between the smartphone cradle and drop = 4cm


Solutions Used for Calibration

Calf Thymus DNA solution concentration (μg/mL) Volume of the 2x DNA solution (μL) Volume of the SYBR GREEN Dye Solution (μL) Final DNA concentration PicoGreen Assay (ng/mL)
5 80 80 2.5
2 80 80 1
1 80 80 0.5
0.5 80 80 0.25
0.25 80 80 0.125
0 80 80 blank


Placing Samples onto the Fluorimeter

  • Step one: Check your phone camera setting, and turn the flash off
  • Step two: Pick up DNA, gloves, lab coat, glass slide, buffer tubes, SYBR Green I tube, and DNA standard
  • Step three: Slide the glass slide into fluorimeter
  • Step four: Drop 80μL of the solution where the light is flashing
  • Step five: Put the box around it and take pictures of the drops

Data Analysis

Representative Images of Samples


Circle analysis of DNA negative drop (0μg/mL)


Circle Analysis of DNA positive drop (5μg/mL)

As shown, the DNA positive drop is much brighter.


Image J Values for All Samples

Trial DNA Concentration (μg/mL) Area Mean Pixel Value RAWINTDEN (drop) RAWINTDEN (background)
1 0 10,906 21.672 236,351 70,338
1 0.25 10,044 35.971 361,290 42,572
1 0.5 10,562 84.274 890,103 52,974
1 0.5 10,452 50.546 528,303 50,012
1 1 10,350 115.226 1,192,594 39,995
1 2 10,914 193.145 2,107,989 46,923
1 5 10,282 142.563 1,465,554 55,342
2 0 10,808 50.412 544,856 71,106
2 0.25 10,510 51.038 536,412 39,795
2 0.5 10,688 78.799 842,203 57,075
2 1 10,432 90.965 948,944 52,390
2 2 10,103 152.075 1,536,481 61,000
2 5 10,440 115.674 1,207,635 51,873
3 0 10,131 37.264 377,520 66,289
3 0.25 10,448 61.987 647,645 48,887
3 0.5 10,762 64.475 693,875 40,978
3 1 10,465 74.835 783,144 47,549
3 2 10,188 155.63 1,585,554 43,186
3 5 10,672 72.312 771,711 47,142



Fitting a Straight Line
[Place an IMAGE of your Excel plot with a line of best fit here. See worksheet page 8]




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