BME100 f2014:Group15 L5: Difference between revisions
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{| style="wikitable" width="700px" | {| style="wikitable" width="700px" | ||
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| [[Image: | | [[Image:BME100WedGr15_goat.jpg|100px|thumb|Name: Michael Catchings]] | ||
| [[Image: | | [[Image:babykittenprofilepicture.jpeg|100px|thumb|Name: Jessica Fong]] | ||
| [[Image: | | [[Image:BME100WedGr15_Team.jpg|100px|thumb|Name: Ben Heywood]] | ||
| [[Image: | | [[Image:BME100 tweety bird.gif|100px|thumb|Name: Norihan Elsharawy]] | ||
| [[Image: | | [[Image:BMEWedGr15 llama.jpg|100px|thumb|Name: Destiny Vidaure]] | ||
| [[Image: | | [[Image:Logan9535395(1).jpg|100px|thumb|Name: Logan Migliorino]] | ||
|} | |} | ||
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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: iPhone 4 | ||
** Flash: | ** Flash: None | ||
** ISO setting: | ** ISO setting: N/A | ||
** White Balance: | ** White Balance: N/A | ||
** Exposure: | ** Exposure: N/A | ||
** Saturation: | ** Saturation: N/A | ||
** Contrast: | ** Contrast: N/A | ||
'''Calibration'''<br> | '''Calibration'''<br> | ||
<!-- INSTRUCTIONS: In the space below, briefly describe how to set up your camera in front of the fluorimeter. Add a PHOTO of this set-up for bonus points. --> | |||
<!-- INSTRUCTIONS: Type the distance between your phone cradle and the drop after the equal sign. --> | |||
* Distance between the smart phone cradle and drop = 5 cm | |||
'''Solutions Used for Calibration''' | |||
'''Solutions Used for Calibration' | |||
{| {{table}} width=700 | {| {{table}} width=700 | ||
|- | |- | ||
| | | Initial Concentration of 2X Calf Thymus DNA Solution(micrograms/mL)|| Volume of the 2x DNA solution (uL) || Volume of the SYBR Green l solution (uL) || Final DNA concentration in SYBR Green Solution (ug/mL) | ||
|- | |||
| 5 || 80 || 80 || 2.5 | |||
|- | |||
| 2 || 80 || 80 || 1 | |||
|- | |||
| 1 || 80 || 80 || .5 | |||
|- | |||
| .5 || 80 || 80 || .25 | |||
|- | |- | ||
| | | .25 || 80 || 80 || .125 | ||
|- | |- | ||
| | | 0 || 80 || 80 || 0 | ||
|} | |} | ||
<!-- Add more rows and cells as needed. --> | |||
'''Placing Samples onto the Fluorimeter''' | '''Placing Samples onto the Fluorimeter''' | ||
# ''[ | # ''[Place the slide, smooth side down, in the fluorimeter so that the drops will be placed on the rough side.]'' | ||
# ''[ | # ''[Place 80 uL drop of SYBR Green I solution using micropipettor onto the rough side of the slide. The drop should be placed on the first two clear circles in the middle of the slide.]'' | ||
# ''[ | # ''[Place 80 uL drop of sample solution on top of the SYBR Green I solution. The drop should still be on the first two circles in the middle of the slide.]'' | ||
# ''[ | # ''[The slide should be adjusted so that the light goes straight threw the middle of the drop, and the drop focuses the light on the other side.]'' | ||
<br> | <br> | ||
| Line 74: | Line 83: | ||
[[Image:Positive Trial.JPG (green).tif|thumb|left|465px|'''Positive Trial''']] [[Image:Negative Trial.JPG (green).tif|thumb|right|465px|'''Negative Trial''']] | |||
{{clear}} | |||
<br> | |||
'''Image J Values for All Calibrator Samples''' | '''Image J Values for All Calibrator Samples''' | ||
<!-- 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. --> | ||
{|border="1" style="border-collapse:collapse;" | |||
|+'''<u>Raw Data for Calibration</u>''' | |||
|-align="center" | |||
| '''Final DNA concentration in SYBR Green 1 solution (µg/mL)'''||'''Calf Thymus DNA Concentration (ug/mL)'''||''' Area '''||'''Mean Pixel Value'''||'''RawIntDen of the Drop'''||'''RawIntDen of the Background'''||'''(RawIntDen Drop) - (Background)''' | |||
|-align="center" | |||
| H2O (0)||0||51372||11.227||576776||493279||83497 | |||
|-align="center" | |||
| 0.25||0.125||22608||26.873||607535||114750||492785 | |||
|-align="center" | |||
| 0.5||0.25||26840||44.258||1187881||139044||1048837 | |||
|-align="center" | |||
| 1||0.5||26048||73.186||1906346||298830||1607516 | |||
|-align="center" | |||
| 2||1||28148||99.922||2812606||117583||2695023 | |||
|-align="center" | |||
| 5||2.5||31372||127.845||4010749||184072||3826677 | |||
|} | |||
'''Calibration curve'''<br> | '''Calibration curve'''<br> | ||
<!-- INSTRUCTIONS: Place an image of your Excel plot with a line of best fit here. --> | <!-- INSTRUCTIONS: Place an image of your Excel plot with a line of best fit here. --> | ||
[[Image:Calibration BME100gr15.jpg|500px|Scatter Plot with best fit line for all data points]][[Image:Calibration without 2.5 BME100gr15.png|500px|Scatter Plot with best fit line excluding the data for 2.5 (ug/mL)]]<br><br>The results of concentration 2.5 was an outlier so we removed it from our data and re-plotted the adjusted data to calculate the equation of our best fit line.<br><br> | |||
'''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 | <br> | ||
* Our negative control PCR result was | {|border="1" style="border-collapse:collapse;" | ||
|+'''<u>Calculated Results</u>''' | |||
|-align="center" | |||
| PCR Product Tube Label||(RawIntDen Drop) - (Background)||PCR Product Concentration (µg/mL)||Initial PCR Product Concentration (µg/mL) | |||
|-align="center" | |||
| Positive ||3557555||1.110617667||13.327412 | |||
|-align="center" | |||
| Negative||518986||0.097761333||1.173136 | |||
|-align="center" | |||
| 1-1 Trial||849487||0.207928333||2.49514 | |||
|-align="center" | |||
| 1-2 Trial||462711||0.079003||0.948036 | |||
|-align="center" | |||
| 1-3 Trial||736243||0.170180333||2.042164 | |||
|-align="center" | |||
| 2-1 Trial||468346||0.080881333||0.970576 | |||
|-align="center" | |||
| 2-2 Trial||543800||0.106032667||1.272392 | |||
|-align="center" | |||
| 2-3 Trial||971808||0.248702||2.984424 | |||
|-align="center" | |||
|Patient 1 ID =||66684||Patient 2 ID =||40117 | |||
|} | |||
<br> | |||
* Our positive control PCR result was 1.110617667 μg/mL | |||
* Our negative control PCR result was 0.097761333 μg/mL | |||
<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 66684: | ||
* Patient | * Patient 40117: | ||
<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 66684: | ||
* Patient | * Patient 40117: | ||
<br> | |||
==SNP Information & Primer Design== | |||
'''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. --> | |||
<br><br>Single nucleotide polymorphisms commonly known as SNPs are genetic variations among people. These genetic variations occur due to a difference in a single nucleotide of DNA. SNPs normally occur throughout a person's DNA, most commonly in the DNA between genes. When an SNP occurs within a gene they play a direct role in certain diseases. One specific SNP (rs16991654) is an example of one of the SNPs that play a more direct role in diseases. This SNP affects Homo sapiens (humans) and is classified as pathogenic or capable of causing disease. The variation is associated with the gene KCNE2 and is located at 21:34370656 or in other words in chromosome 21 at base 34370656. KCNE2’s official name is “potassium voltage-gated channel, Isk-related family, member 2.” This gene has a diverse set of functions and regulates neurotransmitter release, heart rate, insulin secretion, neural excitability, epithelial electrolyte transport, smooth muscle contraction and cell volume. The SNP rs16991654 occurs when the disease allele TTC is instead CTC. This change in the thymine (T) base for a Cytosine (C) base at 21:34370656 is associated with the disease congenital long QT syndromes (LQTSs). LQTS is a rare and clinically heterogeneous inherited disorder characterized by a long QT interval on the electrocardiogram, increased risk of syncope and sudden death caused by arrhythmias.<br><br> | |||
'''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. --> | |||
<br><br> | |||
The first step of the SNP–specific primer design process is to determine what variation is being analyzed. In this case, the variation is rs16991654 from the human genome. The numerical position of the SNP is 34370656. The non-disease forward primer can be read by identifying the 5’ on the top strand and then recording the 20 bases from left to write ending with the nucleotide at 34370656. However, the PCR reaction needs two primers, therefore, the non-disease reverse primer will be read from the bottom strand, 200 bases to the right and “backwards” because the 5’ is on the opposite side of the strand. This means that it is read from right to left and written from left to right. To design a pair of disease SNP-specific primers only the final base of the non-disease forward primer must be changed to the disease SNP nucleotide (TTC → CTC). The results can be validated using the UCSC In-Silico PCR website. Once inputting the proper settings (Human genome, Feb. 2009 (GRCh37/hg19) for the assembly, a target of the genome assembly, max produce size of 4000, and min perfect and good match of 20), the two non-diseased primers can be tested and shown to match the 220 bp sequence of rs16991654. | |||
<br><br> | |||
'''Results''' | |||
<br><br> | |||
[[Image:Rs169 1BME100.jpg|thumb|center|1000px|Gene view of rs16991654 at 34370856]] | |||
<br><br> | |||
[[Image:Rs169 2BME100.jpg|thumb|center|1000px|Gene view of rs16991654 at 34370656]] | |||
<br><br> | |||
[[Image:SNP results real oneBME100.jpg|thumb|center|2000px|PCR results of non-disease of human genome]] | |||
<br> | |||
Latest revision as of 16:37, 5 November 2014
 BME 100 Fall 2014
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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 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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OUR TEAM
LAB 5 WRITE-UPProcedureSmart Phone Camera Settings
Data AnalysisRepresentative Images of Negative and Positive Samples
 
Image J Values for All Calibrator Samples
PCR Results Summary
Observed results
Conclusions
SNP Information & Primer DesignBackground: About the Disease SNP
Primer Design and Testing
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