Difference between revisions of "Team:UMaryland/Description"

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The Polymerase Chain Reaction (PCR) is an essential tool in any biological endeavor that requires the amplification of DNA. Unfortunately, many of the thermocyclers capable of instigating the rapid temperature changes required for the efficient amplification of target sequences are large and prohibitively expensive from the perspective of nascent synthetic biologists. To address this issue and embrace iGEM's values of open access and economy, we worked toward designing, constructing, and testing a household PCR machine. The result of a curious marriage of a hairdryer's nichrome wire, an empty soda can, a fan, and a simple system of sensors and relays, our PCR machine is capable of routine amplification of DNA in a standard PCR reaction. We hope with further testing a refinement it can become a tool not only for inexpensive DNA amplification or incubation, but also for teaching budding engineers and synthetic biologists who might design other useful, highly accessible tools in the future.
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The Polymerase Chain Reaction (PCR) is an essential tool in any biological endeavor that requires the amplification of DNA. Unfortunately, many of the thermocyclers capable of instigating the rapid temperature changes required for the efficient amplification of target sequences are large and prohibitively expensive from the perspective of nascent synthetic biologists. To address this issue and embrace iGEM's values of open access and economy, we worked toward designing, constructing, and testing a household PCR machine. The result of a curious marriage of a hairdryer's nichrome wire, an empty soda can, a fan, and a simple system of sensors and relays, our PCR machine is capable of routine amplification of DNA in a standard PCR reaction. We hope with further testing and refinement it can become a tool not only for inexpensive DNA amplification or incubation, but also for teaching budding engineers and synthetic biologists who might design other useful, highly accessible tools in the future.
  
  

Revision as of 02:38, 19 September 2015