BME103 s2013:T900 Group7 L2: Difference between revisions

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{| style="wikitable" width="700px"
{| style="wikitable" width="700px"
|- valign="top"
|- valign="top"
| [[Image:Barker.jpg|100px|thumb|Name: Samantha Barker]]
| [[Image:Barker.jpg|125px|thumb|Name: Samantha Barker]]
| [[Image:carissa_3189.jpg|100px|thumb|Name: Carissa Henriksen]]
| [[Image:carissa_3189.jpg|100px|thumb|Name: Carissa Henriksen]]
| [[Image:Cotillion_Photo_.jpg|100px|thumb|Name: Amanda Seaney]]
| [[Image:Cotillion_Photo_.jpg|100px|thumb|Name: Amanda Seaney]]
| [[Image:Shire_Profile.jpg|100px|thumb|Name: Nathan Scheuer]]
| [[Image:Shire_Profile.jpg|125px|thumb|Name: Nathan Scheuer]]
| [[Image:TANYASINGH.jpg|100px|thumb|Name: Tanya Singh]]
| [[Image:TANYASINGH.jpg|225px|thumb|Name: Tanya Singh]]
|}
|}


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'''SYBR Green Dye SAMANTHA'''<br>
'''SYBR Green Dye '''<br>
SYBR Green Dye is a membrane permeable nucleic acid dye used in molecular biology labs. The green dye can be placed in a sample with possible DNA and will glow a bright green if DNA is present. This is the most common use of the dye and helps qualitatively analyze if DNA is present in a substance. Although the DNA used in our samples was double stranded DNA, the SYBR Green Dye can also be used to detect single stranded DNA because it has such a high affinity. Although it was placed in the samples after being in the PCR machine, it also can be placed inside a PCR mixture and this allows the dye to bind to the single stranded DNA before it is synthesized by the Taq Polymerase. However, the result is the same. Either way it binds to DNA and glows when DNA is present. <br>
SYBR Green Dye is a membrane permeable nucleic acid dye used in molecular biology labs. The green dye can be placed in a sample with possible DNA and will glow a bright green if DNA is present. This is the most common use of the dye and helps qualitatively analyze if DNA is present in a substance. Although the DNA used in our samples was double stranded DNA, the SYBR Green Dye can also be used to detect single stranded DNA because it has such a high affinity. Although it was placed in the samples after being in the PCR machine, it also can be placed inside a PCR mixture and this allows the dye to bind to the single stranded DNA before it is synthesized by the Taq Polymerase. However, the result is the same. Either way it binds to DNA and glows when DNA is present. <br>


 
[[Image:Shire_device.JPG|x400px|left|thumb|Single-Drop Fluorimeter]]<br>
'''Single-Drop Fluorimeter'''<br>
'''Single-Drop Fluorimeter'''<br>
[[Image:Shire_device.jpg|center|x400px|thumb|Single-Drop Fluorimeter]]<br>
The Single-Drop Fluorimeter consists of a small, simple plastic box with a apparatus situated on the top where the multi-welled slide can fit in. It has a switch located on the right hand side that allows for the LED light to be turned on or off. The slide of the fluorometer is align so that the blue LED shines through a drop placed over two middle wells. The slide has holes along it to allow for a sample to be placed in them.  
The Single-Drop Fluorimeter consists of a small, simple plastic box with a apparatus situated on the top where the multi-welled slide can fit in and align so that the blue LED shines through a drop placed over two middle wells.  


'''How the Fluorescence Technique Works SAMANTHA'''<br>
'''How the Fluorescence Technique Works'''<br>
''[In your own words, a summary of the information from page 9 of the worksheet]''
The fluorometer has a slide with small holes where drops of sample DNA were placed. The drops maintain their round shape because there is a Teflon layer on the slide. The Teflon gives the slide texture and allows the sample drop to maintain its "drop" shape. The reason this is necessary is because the light from the fluorometer can go directly through the drop to increase the intensity of the DNA glow. It also allows for the SYBR Green to move to the surface, which allows for the glow to be seen on the top of the drop. All of this makes it easier to observe and analyze whether the sample has a green glow, and whether there was DNA present in the sample.




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'''Smart Phone Camera Settings'''<br>
'''Smart Phone Camera Settings'''<br>
[[Image:Shire_setup.jpg|x400px|thumb|Setup for Calibration]]<br>
* iPhone 4s
* iPhone 4s
** Flash: Off Mode
** Flash: Off Mode
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'''Calibration'''<br>
'''Calibration'''<br>


The distance between the smart phone cradle and the drop is approximately 10 cm.


In order to set up the calibration, the fluorimeter was placed inside a black box. A slide was slid into the fluorimeter where the drops of DNA sample will be placed. The phone cradle was then placed about 11 cm from where the drop was placed on the slide. From there, the sample of DNA was placed on the slides using a pipet. The smart phone was then placed on the cradle, the lid of the black box was closed, and a picture was taken of the drop of DNA sample. This process was repeated with every DNA sample.<br>




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'''Fitting a Straight Line'''<br>
'''Fitting a Straight Line'''<br>
[[Image:Shire_density_graph.jpg|600x600px]]
[[Image:Shire_graph.jpg|600x600px]]




Latest revision as of 10:20, 2 April 2013

BME 103 Spring 2013 Home
People
Lab Write-Up 1
Lab Write-Up 2
Lab Write-Up 3
Course Logistics For Instructors
Photos
Wiki Editing Help


OUR TEAM

Name: Samantha Barker
Name: Carissa Henriksen
Name: Amanda Seaney
Name: Nathan Scheuer
Name: Tanya Singh


LAB 2 WRITE-UP

Background Information

SYBR Green Dye
SYBR Green Dye is a membrane permeable nucleic acid dye used in molecular biology labs. The green dye can be placed in a sample with possible DNA and will glow a bright green if DNA is present. This is the most common use of the dye and helps qualitatively analyze if DNA is present in a substance. Although the DNA used in our samples was double stranded DNA, the SYBR Green Dye can also be used to detect single stranded DNA because it has such a high affinity. Although it was placed in the samples after being in the PCR machine, it also can be placed inside a PCR mixture and this allows the dye to bind to the single stranded DNA before it is synthesized by the Taq Polymerase. However, the result is the same. Either way it binds to DNA and glows when DNA is present.

Single-Drop Fluorimeter

Single-Drop Fluorimeter
The Single-Drop Fluorimeter consists of a small, simple plastic box with a apparatus situated on the top where the multi-welled slide can fit in. It has a switch located on the right hand side that allows for the LED light to be turned on or off. The slide of the fluorometer is align so that the blue LED shines through a drop placed over two middle wells. The slide has holes along it to allow for a sample to be placed in them.

How the Fluorescence Technique Works
The fluorometer has a slide with small holes where drops of sample DNA were placed. The drops maintain their round shape because there is a Teflon layer on the slide. The Teflon gives the slide texture and allows the sample drop to maintain its "drop" shape. The reason this is necessary is because the light from the fluorometer can go directly through the drop to increase the intensity of the DNA glow. It also allows for the SYBR Green to move to the surface, which allows for the glow to be seen on the top of the drop. All of this makes it easier to observe and analyze whether the sample has a green glow, and whether there was DNA present in the sample.



Procedure

Smart Phone Camera Settings

Setup for Calibration

  • iPhone 4s
    • Flash: Off Mode
    • ISO setting: N/A
    • White Balance: N/A
    • Exposure: N/A
    • Saturation: N/A
    • Contrast: N/A


Calibration


In order to set up the calibration, the fluorimeter was placed inside a black box. A slide was slid into the fluorimeter where the drops of DNA sample will be placed. The phone cradle was then placed about 11 cm from where the drop was placed on the slide. From there, the sample of DNA was placed on the slides using a pipet. The smart phone was then placed on the cradle, the lid of the black box was closed, and a picture was taken of the drop of DNA sample. This process was repeated with every DNA sample.


Solutions Used for Calibration

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

  1. Align the slide with the blue LED, so that the light passes in the middle of two rows of wells and reaches the middle of the opposite side.
  2. Place 80 μL of SYBR GREEN in-between two wells.
  3. Next, add 80 μL of DNA sample in the drop that is formed from step #2.
  4. Cover this created sample from light in order to visualize the florescence.
  5. Take a picture of the sample.


Data Analysis

Representative Images of Samples

with DNA
without DNA


Image J Values for All Samples

DNA Concentration Area Density
0 13856 225126
0 13856 51984
0 13856 68928
0.25 13856 199688
.025 13856 190251
.025 13856 273555
0.5 13856 405395
0.5 13856 482091
0.5 13856 636335
1 13856 1335751
1 13856 1274172
1 13856 1105412
2 13856 1895959
2 13856 1372946
2 13856 1769988
5 13856 1728032
5 13856 2042370
5 13856 1918408


Fitting a Straight Line
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