Difference between revisions of "BME103:T130 Group 6"

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(Initial Machine Testing)
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'''The Original Design'''<br>
'''The Original Design'''<br>
[[Image:Open PCR Solid Works Design.png]]<br>
[[Image:Open PCR Solid Works Design.png]] [[Image:Open PCR Solid Works Design 2.png]]<br>

Revision as of 15:51, 1 November 2012

Owwnotebook icon.png BME 103 Fall 2012 Home
Lab Write-Up 1
Lab Write-Up 2
Lab Write-Up 3
Course Logistics For Instructors
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Name: Jocelynn Christensen
Role: Experimental Protocol Planner
Name: Sam Zimmerman
Role: OpenPCR Machine Engineer
Name: Adam Helland
Name: student
Name: student


Initial Machine Testing

The Original Design
Open PCR Solid Works Design.png Open PCR Solid Works Design 2.png

Experimenting With the Connections

When we unplugged the LED screen from the circuit board, the machine stopped displaying information on the LED screen.

When we unplugged the white wire that connects the circuit board to the heating block, the heating block would not heat up.

Test Run

(Write the date you first tested Open PCR and your experience(s) with the machine)


Polymerase Chain Reaction
1. The Polymerase Chain Reaction or PCR works by singling out a single piece of DNA and then multiplying it so there's millions of copies of one strand of DNA. It's a step by step process that first occurs by heating up the DNA to 100°C in order to denature the hydrogen bonds between the two strands of DNA so that both sides of the DNA can be accesible to copy. After the strands are separated, specific primers are added to locate the section of DNA to be amplified. Next, the Taq DNA polymerase is added which actually copies the section of DNA desired and synthesizes the second half of each strand. After this there are only a few copies of the DNA which is why the machine then replicates more strands by repeating the process multiple times until there are millions of copies.





(Add your work from Week 3, Part 1 here)

Flourimeter Measurements

(Add your work from Week 3, Part 2 here)

Research and Development

Specific Cancer Marker Detection - The Underlying Technology

-Our genes can tell us anything and everything about ourselves.
-The sooner we can detect cancer, the more effectively it can be prevented or treated.
<\t>So why not find out about our disposition to cancer with our genes?
(BONUS points: Use a program like Powerpoint, Word, Illustrator, Microsoft Paint, etc. to illustrate how primers bind to the cancer DNA template, and how Taq polymerases amplify the DNA. Screen-captures from the OpenPCR tutorial might be useful. Be sure to credit the source if you borrow images.)


(Your group will add the results of your Fluorimeter measurements from Week 4 here)