BME100 f2013:W900 Group12 L5: Difference between revisions

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{| style="wikitable" width="700px"
{| style="wikitable" width="700px"
|- valign="top"
|- valign="top"
| [[Image:BigSwa.jpg|250px|thumb|Name: Swaroon Sridhar]]
| [[Image:BigSwa.jpg|250px|thumb|Swaroon Sridhar (and headphones)]]
| [[Image:ChrisLae.jpg|250px|thumb|Name: Christopher Lae]]
| [[Image:ChrisLae.jpg|250px|thumb|Christopher Lae]]
| [[Image:CourtneyVB.jpg|250px|thumb|Name: Courtney Van Bussum]]
| [[Image:CourtneyVB.jpg|250px|thumb|Courtney Van Bussum]]
| [[Image:NN.jpg|250px|thumb|Name: Nhi Nguyen]]
| [[Image:NN.jpg|250px|thumb|Nhi Nguyen]]
| [[Image:SwathiH.jpg|250px|thumb|Name: Swathi Harikumar]]
| [[Image:
|}
|}


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'''SYBR Green Dye'''<br>
'''SYBR Green Dye'''<br>
''SYBR Green Dye is a high-sensitivity, double-stranded DNA binding reagent dye that is used as a nucleic acid stain in molecular biology. It is used for detecting double-stranded DNA generated during PCR. These stains provide sensitivity with low background fluorescence, and because the stain binds to double-stranded DNA, the DNA-dye-complex absorbs blue light and emits green light. [Instructions: A short summary describing SYBR green dye]''<br>
SYBR Green Dye is a high-sensitivity, double-stranded DNA binding reagent dye that is used as a nucleic acid stain in molecular biology. It is used for detecting double-stranded DNA generated during PCR. These stains provide sensitivity with low background fluorescence, and because the stain binds to double-stranded DNA, the DNA-dye-complex absorbs blue light and emits green light. Because of this characteristic, we are able to detect how much DNA is present in a solution.
[[Image:Singledrop.jpg|400px|thumb|Single-Drop Fluorimeter]]
<br>




'''Single-Drop Fluorimeter'''<br>
'''Single-Drop Fluorimeter'''<br>
''[Instructions: A description of the single-drop fluorimeter device. Add a PHOTO for bonus points]''<br>
The single-drop fluorimeter device is a box that emits a blue light. A slot is present on the device for a sample slide to be placed on. The surface of the sample slide on which the solution can be dropped on is hydrophobic, and because of this water (when dropped on the surface) forms a sphere which can be observed for testing the presence of DNA. Then the SYBR Green dye and DNA solutions are placed on the sample slide, and blue light passes through the solution so that green light will be emitted. This process enables users to measure DNA in fluorescent materials.
<br>
 
 




'''How the Fluorescence Technique Works'''<br>
'''How the Fluorescence Technique Works'''<br>
''[Instructions: In your own words]''
In this experiment, the fluorescence technique enables students to view a controlled environment for fluorescent analysis. This environment is enclosed in darkness, which allows for easier detection of DNA in solutions. The sample slides on which solutions are placed on are hydrophobic, which means that when liquid samples are dropped on the surface they form spheres. A blue light is concentrated onto the substance and this causes the SYBR Green Dye to emit a green light. This process forms a structure which travels to the surface of the sample so that it can be observed in the experiment.




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'''Smart Phone Camera Settings'''<br>
'''Smart Phone Camera Settings'''<br>
''[Instructions: The type of smart phone you used and how you adjusted the camera settings, if applicable (see worksheet page 4).]''
* Type of Smartphone:
** Flash:
** ISO setting:
** White Balance:
** Exposure:
** Saturation:
** Contrast:


''[Instructions: If you used an additional phone, describe the other type of smart phone you used and how you adjusted the camera settings, if applicable. If not, delete this part]''
* Type of Smartphone: Samsung Galaxy S4
* Type of Smartphone:
** Flash: Off
** Flash:
** ISO setting: Auto
** ISO setting:
** White Balance:Auto
** White Balance:  
** Exposure:0
** Exposure:
** Saturation:N/A
** Saturation:
** Contrast:N/A
** Contrast:
 


'''Calibration'''<br>
'''Calibration'''<br>


''[Instructions: Describe how to set up your camera in front of the fluorimeter. Add a PHOTO of this set-up for bonus points.]''
In this lab, a fluorimeter was required to detect fluorescence. This instrument measures how the quantity is related to the amount of florescent material and, less directly, proportional to the amount of the molecule being detected. First, find the smooth side of the glass using gloves. Next, turn on the fluorimeter and place the slide into the fluorimeter with the smooth side down. Set the camera timer to 3 seconds and place the phone on the cradle. Adjust the height of the fluorimeter so that the camera views the slide nearly on the edge. Place a 80 uL drop of SYBR Green I solution in the middle of the first 2 circles on the slide. Then place the same amount of the Sample Calibration solution on top of the SYBR Green solution. Adjust the slide so that the light illuminates the center of the drop. Make sure to adjust the distance between the smartphone and fluorimeter to greater than 4cm away and record the distance. Keeping the drop in focus, cover with the light box keeping one flap open. Initiate the timer and close the flap before the picture is taken. Remove the drop from the slide using the micropipette and then repeat the same procedure with the next two clear circles for each sample calibration solution.


* Distance between the smart phone cradle and drop =
''[Instructions: See worksheet page 6.]''


[[Image:Calibration.jpg|400px|thumb|Calibration Set-up]]


'''Solutions Used for Calibration''' ''[Instructions: See worksheet page 6.]''
* Distance between the smart phone cradle and drop = 7 cm for Trial 1 , 4 cm for Trial 2
 
 
 
'''Solutions Used for Calibration'''  
{| {{table}} width=700
{| {{table}} width=700
|-
|-
| row 1 cell 1 || row 1 cell 2 || row 1 cell 3 || row 1 cell 4
| Calf Thymus DNA solution concentration (microg/mL) || Volume of the 2X DNA Solution (μL) || Volume of SYBR GREEN I Dye solution (μL) || Final DNA concentration in SYBR Green I Assay (ng/mL)
|-
|-
| row 2 cell 1 || row 2 cell 2 || row 2 cell 3 || row 2 cell 4
| 5 || 80 || 80 || 2.5
|-
|-
| row 3 cell 1 || row 3 cell 2 || row 3 cell 3 || row 3 cell 4
| 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
|}
|}
''[Add more rows as needed]''




'''Placing Samples onto the Fluorimeter'''
'''Placing Samples onto the Fluorimeter"
# ''[Instructions: Step one, in your OWN words]''
 
# ''[Instructions: Step two, in your own words]''
Instructions
# ''[Instructions: Step three, in your own words]''
# '''Step one:''' First place a 80 uL drop of SYBR Green I solution in the middle of the first 2 circles on the slide.''  
# ''[Instructions: Step etc., in your own words]''
# '''Step two:''' Add 80 uL of the sample calibration solution on top of the drop.
# '''Step three:''' Make sure the light illuminates the center for the drop in the middle of the 2 clear circles.
# '''Step four:''' After the picture is taken, remove the drop with a micro pipette and throw the waste tip into the red cup to be disposed of in the bio-hazard can. Repeat procedure a total of three times for each concentration of calibration solution.
 


<br>
<br>
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'''Representative Images of Samples'''
'''Representative Images of Samples'''


''[Instructions: Show an IMAGE <u>where you drew a circle around the droplet</u> with the freehand tool for a sample with no DNA]''
''Sample Image with no DNA


''[Instructions: Show an IMAGE <u>where you drew a circle around the droplet</u> with the freehand tool for a sample '''with''' DNA (positive signal)]''
[[Image:Example with no DNA.jpg]]]''




''Sample Image with DNA (positive signal)


'''Image J Values for All Samples'''  
[[Image:Sample with DNA.jpg]]]''


''[Instructions: See worksheet page 8. '''To save time on typing a new Wiki table from scratch''', use THIS TOOL to auto-generate a Wiki table: [http://excel2wiki.net/wikipedia.php Excel-to-Wiki Converter]. Copy the headers and values from the Excel spreadsheet you made, paste them into the form field, click submit, copy the Wiki code that the tool generated, and replace TABLE GOES HERE (below) with your auto-generated code.]''




TABLE GOES HERE
'''Image J Values for All Samples'''


{| {{table}} width=700
|-
| align="center" style="background:#f0f0f0;"|'''Calf Thymus DNA concentration (FINAL), microg/ml'''
| align="center" style="background:#f0f0f0;"|'''AREA'''
| align="center" style="background:#f0f0f0;"|'''Mean Pixel Value'''
| align="center" style="background:#f0f0f0;"|'''RAWINTDEN OF THE DROP'''
| align="center" style="background:#f0f0f0;"|'''RAWINTDEN OF THE BACKGROUND'''
|-
| 0||100416||17.7||1777348||78918
|-
| 0||111980||14.285||1599619||119145
|-
| 0.125||73832||16.584||1224416||95473
|-
| 0.125||142278||18.613||2648224||94811
|-
| 0.25||73080||34.39||2513234||46894
|-
| 0.25||152900||36.809||5628122||116948
|-
| 0.5||71736||55.577||3986866||44529
|-
| 0.5||111748||58.068||6488988||215904
|-
| 1||64872||80.489||5221499||36599
|-
| 1||107992||103.714||11200277||71323
|-
| 2.5||90534||64.136||5806455||74631
|-
| 2.5||81152||132.506||10753140||75852
|-
|
|}


'''Fitting a Straight Line'''<br>
'''Fitting a Straight Line'''<br>


''[Instructions: Place an IMAGE of your Excel plot with a line of best fit here. See worksheet page 9]''
''[[Image:Plot of data.jpg]]''
 




<br>
<br>
<!-- Note: Be sure to delete the text in brackets: ''[ ]'' -->
<!-- Note: Be sure to delete the text in brackets: ''[ ]'' -->

Latest revision as of 11:54, 13 April 2014

BME 100 Fall 2013 Home
People
Lab Write-Up 1 | Lab Write-Up 2 | Lab Write-Up 3
Lab Write-Up 4 | Lab Write-Up 5 | Lab Write-Up 6
Course Logistics For Instructors
Photos
Wiki Editing Help

OUR TEAM

Swaroon Sridhar (and headphones)
Christopher Lae
Courtney Van Bussum
Nhi Nguyen
 [[Image:


LAB 5 WRITE-UP

Background Information

SYBR Green Dye
SYBR Green Dye is a high-sensitivity, double-stranded DNA binding reagent dye that is used as a nucleic acid stain in molecular biology. It is used for detecting double-stranded DNA generated during PCR. These stains provide sensitivity with low background fluorescence, and because the stain binds to double-stranded DNA, the DNA-dye-complex absorbs blue light and emits green light. Because of this characteristic, we are able to detect how much DNA is present in a solution.

Single-Drop Fluorimeter



Single-Drop Fluorimeter
The single-drop fluorimeter device is a box that emits a blue light. A slot is present on the device for a sample slide to be placed on. The surface of the sample slide on which the solution can be dropped on is hydrophobic, and because of this water (when dropped on the surface) forms a sphere which can be observed for testing the presence of DNA. Then the SYBR Green dye and DNA solutions are placed on the sample slide, and blue light passes through the solution so that green light will be emitted. This process enables users to measure DNA in fluorescent materials.



How the Fluorescence Technique Works
In this experiment, the fluorescence technique enables students to view a controlled environment for fluorescent analysis. This environment is enclosed in darkness, which allows for easier detection of DNA in solutions. The sample slides on which solutions are placed on are hydrophobic, which means that when liquid samples are dropped on the surface they form spheres. A blue light is concentrated onto the substance and this causes the SYBR Green Dye to emit a green light. This process forms a structure which travels to the surface of the sample so that it can be observed in the experiment.



Procedure

Smart Phone Camera Settings

  • Type of Smartphone: Samsung Galaxy S4
    • Flash: Off
    • ISO setting: Auto
    • White Balance:Auto
    • Exposure:0
    • Saturation:N/A
    • Contrast:N/A


Calibration

In this lab, a fluorimeter was required to detect fluorescence. This instrument measures how the quantity is related to the amount of florescent material and, less directly, proportional to the amount of the molecule being detected. First, find the smooth side of the glass using gloves. Next, turn on the fluorimeter and place the slide into the fluorimeter with the smooth side down. Set the camera timer to 3 seconds and place the phone on the cradle. Adjust the height of the fluorimeter so that the camera views the slide nearly on the edge. Place a 80 uL drop of SYBR Green I solution in the middle of the first 2 circles on the slide. Then place the same amount of the Sample Calibration solution on top of the SYBR Green solution. Adjust the slide so that the light illuminates the center of the drop. Make sure to adjust the distance between the smartphone and fluorimeter to greater than 4cm away and record the distance. Keeping the drop in focus, cover with the light box keeping one flap open. Initiate the timer and close the flap before the picture is taken. Remove the drop from the slide using the micropipette and then repeat the same procedure with the next two clear circles for each sample calibration solution.


Calibration Set-up
  • Distance between the smart phone cradle and drop = 7 cm for Trial 1 , 4 cm for Trial 2


Solutions Used for Calibration

Calf Thymus DNA solution concentration (microg/mL) Volume of the 2X DNA Solution (μL) Volume of SYBR GREEN I Dye solution (μL) Final DNA concentration in SYBR Green I 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"

Instructions

  1. Step one: First place a 80 uL drop of SYBR Green I solution in the middle of the first 2 circles on the slide.
  2. Step two: Add 80 uL of the sample calibration solution on top of the drop.
  3. Step three: Make sure the light illuminates the center for the drop in the middle of the 2 clear circles.
  4. Step four: After the picture is taken, remove the drop with a micro pipette and throw the waste tip into the red cup to be disposed of in the bio-hazard can. Repeat procedure a total of three times for each concentration of calibration solution.



Data Analysis

Representative Images of Samples

Sample Image with no DNA

]


Sample Image with DNA (positive signal)

]


Image J Values for All Samples

Calf Thymus DNA concentration (FINAL), microg/ml AREA Mean Pixel Value RAWINTDEN OF THE DROP RAWINTDEN OF THE BACKGROUND
0 100416 17.7 1777348 78918
0 111980 14.285 1599619 119145
0.125 73832 16.584 1224416 95473
0.125 142278 18.613 2648224 94811
0.25 73080 34.39 2513234 46894
0.25 152900 36.809 5628122 116948
0.5 71736 55.577 3986866 44529
0.5 111748 58.068 6488988 215904
1 64872 80.489 5221499 36599
1 107992 103.714 11200277 71323
2.5 90534 64.136 5806455 74631
2.5 81152 132.506 10753140 75852

Fitting a Straight Line
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