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Revision as of 17:25, 19 August 2010
Genomikon: an Educational Toolkit for the Rapid Assembly of Plasmids
Synthetic biology is a new and expanding field that has potential applications in every aspect of society. Today, synthetic biology is underused because it is expensive and slow. The University of Alberta is developing a method of plasmid assembly that is modular, rapid, and inexpensive. We are in process of designing an educational kit, Genomikon, which will enable anyone to construct a plasmid without special equipment. We will also provide a comprehensive lab manual to accomodate those new to the field.
To demonstrate the accessibility of our Genomikon toolkit, we will implement it in a high school laboratory setting. Genetic parts will be adapted into a system called BioBytes. This system will allow students to rationally create functional plasmids. The kit’s flexiblity will accomodate both predesigned experiments and new creative expressions. We believe that our kit could revolutionize science education. Our project not only seeks to optimize current procedures of synthetic biology but will also expose a new generation of students to this exciting field.
Synthetic Biology is a field that involves the design and construction of artificial biological systems and functions using the methodologies of both science and engineering. This new expanding field is applied to studying biological systems found in nature by building an artificial construct using the current knowledge of the system, and engineer biological systems to be used as tools in biotechnology.
Synthetic Biology ; Genetic Engineering; Engineering; Biology; academia yeast, bacteria, other hosts Genetics projects where genes are taken from nature and combined in new ways to produce more and more complicated simple parts and devices with abilities including chemical sensing and light detection.
Sign up at Genomikon's Online Lab Manual for access to the encyclopedia, glossary, forums, experiments and details about parts in the kit.
Running on caffeine.