Team:Austin Texas/kit

From 2014.igem.org

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The genetic code is a composition of 20 highly conserved amino acids that are essential to all organisms on Earth. While the genetic code is specific, it is also degenerate, meaning that more than one codon can encode for the incorporation of a specific amino acid.  For example, there are six serine codons and three stop codons (called amber, ochre, and opal).  By recoding one of the redundant codons, the recoded codon can signal for the incorporation of a non-canonical amino acid (ncAA) rather than the codon's original usage. Of the three stop codons, the amber codon is the least abundant and thus, the easiest and most efficient to recode.
The genetic code is a composition of 20 highly conserved amino acids that are essential to all organisms on Earth. While the genetic code is specific, it is also degenerate, meaning that more than one codon can encode for the incorporation of a specific amino acid.  For example, there are six serine codons and three stop codons (called amber, ochre, and opal).  By recoding one of the redundant codons, the recoded codon can signal for the incorporation of a non-canonical amino acid (ncAA) rather than the codon's original usage. Of the three stop codons, the amber codon is the least abundant and thus, the easiest and most efficient to recode.
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The Shultz lab was the first to expand the genetic code using a unique synthetase/tRNA. This synthetase /tRNA pair originated from M. jannaschii tyrosine RS (Mj-TyrRS) and allowed the cell to incorporate <i>O</i>-methyl-L-tyrosine at the amber codon. Since then, several ncAA synthetase/pairs have been generated. A total of seven ncAAs were used in addition to tyrosine for our project.  [https://2014.igem.org/Team:Austin_Texas/kit#ncAA_Table The full list of amino acids used in this study can be found here].
''[Maybe a paragraph on the first recoding??? what amino acid tRNA synthetase and tRNA was used...?  This could then transition to something from the following paragraph... but the following paragraph need to be shortened.  We would rather talk more about ncAA than amberless e. coli.  '''-dennis''']''
''[Maybe a paragraph on the first recoding??? what amino acid tRNA synthetase and tRNA was used...?  This could then transition to something from the following paragraph... but the following paragraph need to be shortened.  We would rather talk more about ncAA than amberless e. coli.  '''-dennis''']''

Revision as of 01:43, 17 October 2014