BME100 f2014:Group9 L5: Difference between revisions

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(New page: {|{{table}} width="800" |- |style="background-color: #EEE"|128px<span style="font-size:22px;"> BME 100 Fall 2014</span> |style="background-color: #F2F2F2" | ...)
 
 
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{| style="wikitable" width="700px"
{| style="wikitable" width="700px"
|- valign="top"
|- valign="top"
| [[Image:BME103student.jpg|100px|thumb|Name: student]]
| [[Image:BME100L4KevinKozaAvatar.png|100px|thumb|Kevin Koza]]  
| [[Image:BME103student.jpg|100px|thumb|Name: student]]
| [[Image:10547697 10202634839104339 7993801865863588549 n.jpg|100px|thumb|Evan Targioni]]
| [[Image:BME103student.jpg|100px|thumb|Name: student]]
| [[Image:BME103student.jpg|100px|thumb|Logan Murphy]]
| [[Image:BME103student.jpg|100px|thumb|Name: student]]
| [[Image:Coloriage-cube.jpg|100px|thumb|Phil Liles]]
| [[Image:BME103student.jpg|100px|thumb|Name: student]]
| [[Image:BME103student.jpg|100px|thumb|Cameron Hiller]]
| [[Image:BME103student.jpg|100px|thumb|Name: student]]
| [[Image:Avatar.png|100px|thumb|Tiffany Gong]]
|}
|}


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'''Smart Phone Camera Settings'''<br>
'''Smart Phone Camera Settings'''<br>
<!-- The type of smart phone you used and how you adjusted the camera settings, if applicable. If you used more than one phone, make an additional list. -->
<!-- The type of smart phone you used and how you adjusted the camera settings, if applicable. If you used more than one phone, make an additional list. -->
* Type of Smartphone:
* Type of Smartphone: Moto G
** Flash:
** Flash: Off
** ISO setting:
** ISO setting: Highest setting
** White Balance:  
** White Balance: Auto
** Exposure:
** Exposure: High
** Saturation:
** Saturation: High
** Contrast:
** Contrast: Low




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<!-- INSTRUCTIONS: Type the distance between your phone cradle and the drop after the equal sign. -->
<!-- INSTRUCTIONS: Type the distance between your phone cradle and the drop after the equal sign. -->
* Distance between the smart phone cradle and drop =
* The phone was set in the cradle with the camera facing the side of the drop at a slight downward angle to center the photograph.
* Distance between the smart phone cradle and drop = 11cm




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{| {{table}} width=700
{| {{table}} width=700
|-
|-
| row 1 cell 1 || row 1 cell 2 || row 1 cell 3 || row 1 cell 4
| Initial Concentration of 2X Calf Thymus DNA Solution (micrograms/mL) || Volume of the 2X DNA Solution || Volume of SYBR Green I || Final DNA Concentration
|-
|-
| 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 || .5
|-
| 0.5 || 80 || 80 || .25
|-
| 0.25 || 80 || 80 || .125
|-
| 0 || 80 || 80 || 0
|}
|}


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'''Placing Samples onto the Fluorimeter'''
'''Placing Samples onto the Fluorimeter'''
# ''[Instructions: Step one, in your OWN words]''
# Once all sample solutions are procured, align the cradle and smartphone into an optimal position for taking photos from the side of the fluorimeter.
# ''[Instructions: Step two, in your own words]''
# Place 80 microliters of SYBR Green I and 80 microliters of the sample solution on the superhydrophobic side of a slide, between two of the glass dots.
# ''[Instructions: Step three, in your own words]''
# Align the slide so that the drop is illuminated by the blue light.
# ''[Instructions: Step etc., in your own words]''
# Take three photos of the drop with the smartphone, and then remove the drop.
# Repeat this process with each different sample solution, moving to a different section of the superhydrophobic slide each time.


<br>
<br>
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<!-- INSTRUCTIONS: Show a table for the ImageJ calf thymus DNA data. '''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. 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.  -->
<!-- INSTRUCTIONS: Show a table for the ImageJ calf thymus DNA data. '''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. 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.  -->


[[Image:BME100WG9CalibrationSamplesExcelSheet.png‎|1100px|Description of image]]


TABLE GOES HERE
'''Calibration curve'''<br>
<!-- INSTRUCTIONS: Place an image of your Excel plot with a line of best fit here. -->
 
[[Image:BME100WG9BestFit.png‎|400px|Description of image]]




'''Calibration curve'''<br>
<!-- INSTRUCTIONS: Place an image of your Excel plot with a line of best fit here. -->




'''PCR Results Summary'''
'''PCR Results Summary'''
<!-- INSTRUCTIONS: You completed 8 PCR reactions and used the SYBR Green I staining and imaging technique to measure the amount of amplified DNA in each PCR reaction. You used a standard curve (based on known concentrations of calf thymus DNA) to convert INTDEN values into DNA concentration. Your positive control and negative control samples should be used as '''threshold''' values for determining whether an unknown (patient) sample is truly positive or negative. Replace the underscore with your claculated initial concentration values.-->
<!-- INSTRUCTIONS: You completed 8 PCR reactions and used the SYBR Green I staining and imaging technique to measure the amount of amplified DNA in each PCR reaction. You used a standard curve (based on known concentrations of calf thymus DNA) to convert INTDEN values into DNA concentration. Your positive control and negative control samples should be used as '''threshold''' values for determining whether an unknown (patient) sample is truly positive or negative. Replace the underscore with your claculated initial concentration values.-->
* Our positive control PCR result was ____ μg/mL
* Our positive control PCR result was 2.36 μg/mL
* Our negative control PCR result was ____ μg/mL
* Our negative control PCR result was -.81 μg/mL*
 
* Negative results may occur from error in the best-fit line


<u>Observed results</u>
<u>Observed results</u>
<!-- INSTRUCTIONS: Replace the underscore with each patient ID. After the colon, write both a qualitative (what the images looked like) and a quantitative description (μg/mL) of what you observed -->
<!-- INSTRUCTIONS: Replace the underscore with each patient ID. After the colon, write both a qualitative (what the images looked like) and a quantitative description (μg/mL) of what you observed -->
* Patient _____ :  
* Patient 19405 : -.27 μg/mL.* The images showed no green fluorescence.
* Patient _____ :
* Patient 26455 : -.41 μg/mL.* The images showed no green fluorescence.


<u>Conclusions</u>
<u>Conclusions</u>
<!-- INSTRUCTIONS: Compare each patient's results to the positive control value and the negative control value. Draw a final conclusion for each patient (positive or negative) and explain why you made that conclusion. -->
<!-- INSTRUCTIONS: Compare each patient's results to the positive control value and the negative control value. Draw a final conclusion for each patient (positive or negative) and explain why you made that conclusion. -->
* Patient _____ :
* Patient 19405 : Negative. The concentration of DNA is similar to that of the negative control, and since no green fluorescence was observed, it signifies that the patient does not possess the diseased DNA.
* Patient _____ :
* Patient 26455 : Negative. The concentration of DNA is similar to that of the negative control, and since no green fluorescence was observed, it signifies that the patient does not possess the diseased DNA.




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'''Background: About the Disease SNP'''
'''Background: About the Disease SNP'''
<!-- INSTRUCTIONS: This content is from PCR Lab D. Write a summary, at least five sentences long, about the disease SNP in your own words. -->
<!-- INSTRUCTIONS: This content is from PCR Lab D. Write a summary, at least five sentences long, about the disease SNP in your own words. -->
The disease SNP studied in this lab was categorized as rs16991654. It is a SNP found in the species homo sapiens, found in the chromosome  21:34370656. The clinical significance of this SNP is pathogenic, and it is associated with the KCNE2 gene, which has association with long QT syndrome, a rare heart condition. KCNE2 stands for potassium voltage-gated channel, Isk-related family, member 2. The function of this gene is to create a channel which functions in neurotransmitter release, heart rate, insulin secretion, neuronal excitability, epithelial electrolyte transport, smooth muscle contraction, and cell volume. It assembles with the product of another gene, which is a pore-creating protein, to alter its function.




'''Primer Design and Testing'''
'''Primer Design and Testing'''
<!-- INSTRUCTIONS: Write a short summary of the results of your primer test. Underneath your summary, include a screen capture of the results web page. You may crop the image so that it only includes the relevant information. -->
<!-- INSTRUCTIONS: Write a short summary of the results of your primer test. Underneath your summary, include a screen capture of the results web page. You may crop the image so that it only includes the relevant information. -->
In our primer test, we learned that the disease-associated allele contained the sequence CTC, and that the non-disease sequence was TTC. We used this information to find the forward primer for the non-disease sequence, which was '''TGGTGATGATTGGAATGTTC.''' 200 units from this was the reverse primer, which was '''CTCCCTTATCAGGGGGACAT.'''
The disease forward primer was '''TGGTGATGATTGGAATGCTC,''' and the reverse primer was '''CTCCCTTATCAGGGGGACAT.'''
These primers were taken to http://genome.ucsc.edu/cgi-bin/hgPcr?command=start, where we ran them through the program to determine the result. The non-disease primers finished with the result as follows:
[[Image:BME100WG9InSilicoPCR.png‎|500px|Description of image]]
This validates our results in finding the correct primers, and when the test is run with the disease primers, no results are found.




Latest revision as of 22:59, 11 November 2014

BME 100 Fall 2014 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

Kevin Koza
Evan Targioni
Logan Murphy
Phil Liles
Cameron Hiller
Tiffany Gong


LAB 5 WRITE-UP

Procedure

Smart Phone Camera Settings

  • Type of Smartphone: Moto G
    • Flash: Off
    • ISO setting: Highest setting
    • White Balance: Auto
    • Exposure: High
    • Saturation: High
    • Contrast: Low


Calibration

  • The phone was set in the cradle with the camera facing the side of the drop at a slight downward angle to center the photograph.
  • Distance between the smart phone cradle and drop = 11cm


Solutions Used for Calibration

Initial Concentration of 2X Calf Thymus DNA Solution (micrograms/mL) Volume of the 2X DNA Solution Volume of SYBR Green I Final DNA Concentration
5 80 80 2.5
2 80 80 1
1 80 80 .5
0.5 80 80 .25
0.25 80 80 .125
0 80 80 0



Placing Samples onto the Fluorimeter

  1. Once all sample solutions are procured, align the cradle and smartphone into an optimal position for taking photos from the side of the fluorimeter.
  2. Place 80 microliters of SYBR Green I and 80 microliters of the sample solution on the superhydrophobic side of a slide, between two of the glass dots.
  3. Align the slide so that the drop is illuminated by the blue light.
  4. Take three photos of the drop with the smartphone, and then remove the drop.
  5. Repeat this process with each different sample solution, moving to a different section of the superhydrophobic slide each time.


Data Analysis

Representative Images of Negative and Positive Samples


Image J Values for All Calibrator Samples

Description of image

Calibration curve

Description of image



PCR Results Summary

  • Our positive control PCR result was 2.36 μg/mL
  • Our negative control PCR result was -.81 μg/mL*
* Negative results may occur from error in the best-fit line

Observed results

  • Patient 19405 : -.27 μg/mL.* The images showed no green fluorescence.
  • Patient 26455 : -.41 μg/mL.* The images showed no green fluorescence.

Conclusions

  • Patient 19405 : Negative. The concentration of DNA is similar to that of the negative control, and since no green fluorescence was observed, it signifies that the patient does not possess the diseased DNA.
  • Patient 26455 : Negative. The concentration of DNA is similar to that of the negative control, and since no green fluorescence was observed, it signifies that the patient does not possess the diseased DNA.




SNP Information & Primer Design

Background: About the Disease SNP

The disease SNP studied in this lab was categorized as rs16991654. It is a SNP found in the species homo sapiens, found in the chromosome 21:34370656. The clinical significance of this SNP is pathogenic, and it is associated with the KCNE2 gene, which has association with long QT syndrome, a rare heart condition. KCNE2 stands for potassium voltage-gated channel, Isk-related family, member 2. The function of this gene is to create a channel which functions in neurotransmitter release, heart rate, insulin secretion, neuronal excitability, epithelial electrolyte transport, smooth muscle contraction, and cell volume. It assembles with the product of another gene, which is a pore-creating protein, to alter its function.


Primer Design and Testing

In our primer test, we learned that the disease-associated allele contained the sequence CTC, and that the non-disease sequence was TTC. We used this information to find the forward primer for the non-disease sequence, which was TGGTGATGATTGGAATGTTC. 200 units from this was the reverse primer, which was CTCCCTTATCAGGGGGACAT. The disease forward primer was TGGTGATGATTGGAATGCTC, and the reverse primer was CTCCCTTATCAGGGGGACAT. These primers were taken to http://genome.ucsc.edu/cgi-bin/hgPcr?command=start, where we ran them through the program to determine the result. The non-disease primers finished with the result as follows: 

Description of image

This validates our results in finding the correct primers, and when the test is run with the disease primers, no results are found.



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