Difference between revisions of "Team:Amazonas Brazil/Applied Design"
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<p class="p">Then, we built a framework and a series of methods based on CRISPR/Cas9 genome editing for bacteria: the CRISPeasy can be applied to be your standard BioBrick vector for genome engineering purposes. Abstract your work. Safe time, money AND be engage in SynBio using standardized biological parts! | <p class="p">Then, we built a framework and a series of methods based on CRISPR/Cas9 genome editing for bacteria: the CRISPeasy can be applied to be your standard BioBrick vector for genome engineering purposes. Abstract your work. Safe time, money AND be engage in SynBio using standardized biological parts! | ||
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Revision as of 02:25, 2 November 2017
REAL-WORLD APPLICATION
"The engineering of biology remains complex because we have never made it simple" Thomas Knight
Synthetic Biology is endowed with the concept that complex biological systems are made and engineered most effectively when the duty is divided into abstracted steps. Besides that, your components need to be standardized, well-described and interchangeable. iGEM supports this rule. Registry of Standard Biological parts supports this rule. However, CRISPR has not yet been actively involved in this.
Then, we built a framework and a series of methods based on CRISPR/Cas9 genome editing for bacteria: the CRISPeasy can be applied to be your standard BioBrick vector for genome engineering purposes. Abstract your work. Safe time, money AND be engage in SynBio using standardized biological parts!
