BME103 s2013:T900 Group4 L2: Difference between revisions

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'''Placing Samples onto the Fluorimeter'''
'''Placing Samples onto the Fluorimeter'''
* ''[Step one, in your OWN words]''
* ''[Step two, in your own words]''
* ''[Step three, in your own words]''
* ''[etc.]''


<br>
* ''Step one, set your phone.''
<!-- Note: Be sure to delete the text in brackets: ''[ ]'' -->
* ''Step two,Pick up DAN, gloves, lab coat, glass slide, buffer tubes, sync green I tube, and DNA standard.''
* ''Step three, Slide the glass slide into fluorimeter.''
* ''Step four, Drop 80 micro liters of sample of the solution where the light is flashing.''
* "Step five, Look to see if the drops forms a ball and doesn't spread around."
* "Step six, Place the box around it and take a picture.''


==Data Analysis==
==Data Analysis==

Revision as of 13:56, 31 March 2013

BME 103 Spring 2013 Home
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Lab Write-Up 1
Lab Write-Up 2
Lab Write-Up 3
Course Logistics For Instructors
Photos
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OUR TEAM

Name: Kinjal Ahir : Procedure
Name: student
Name: student
Name: student
Name: student
Name: student


LAB 2 WRITE-UP

Background Information

SYBR Green Dye
[A short summary describing SYBR green dye]


Single-Drop Fluorimeter
[A description of the single-drop fluorimeter device. Add a PHOTO for bonus points]


How the Fluorescence Technique Works
[In your own words, a summary of the information from page 9 of the worksheet]



Procedure

Smart Phone Camera Settings

  • [Iphone 4]
    • Flash: NA
    • ISO setting:NA
    • White Balance: NA
    • Exposure: NA
    • Saturation: NA
    • Contrast: NA



Calibration<Photo of Fluorimeter>

[Describe how to set up your camera in front of the fluorimeter. Add a PHOTO of this set-up for bonus points.]

  • Distance between the smart phone cradle and drop =

____


Solutions Used for Calibration [See worksheet page 5]

Calf Thymus DNA solution concentration (microg/ML) Volume of the 2x DNA solution (uL) Volume of the SYBR GREEN Dye Solution (uL) Final DNA concentration PicoGreen Assay (ng/mL)
0 80 80
.25 80 80 row 3 cell 4
.5 80 80 row 4 cell 4
1 80 80 row 5 cell 4
2 80 80 row 6 cell 4
5 80 80 row 7 cell 4


Placing Samples onto the Fluorimeter

  • Step one, set your phone.
  • Step two,Pick up DAN, gloves, lab coat, glass slide, buffer tubes, sync green I tube, and DNA standard.
  • Step three, Slide the glass slide into fluorimeter.
  • Step four, Drop 80 micro liters of sample of the solution where the light is flashing.
  • "Step five, Look to see if the drops forms a ball and doesn't spread around."
  • "Step six, Place the box around it and take a picture.

Data Analysis

Representative Images of Samples

[Show an IMAGE where you drew a circle around the droplet with the freehand tool for a sample with no DNA]

[Show an IMAGE where you drew a circle around the droplet with the freehand tool for a sample with DNA (positive signal)]


Image J Values for All Samples [See worksheet page 5]

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

[Add more rows as needed]


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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