Add to ORKGThe in vivo, genetically programmed incorporation of designer amino acids allows the properties of proteins to be tailored with molecular precision. The Methanococcus jannaschii tyrosyl-transfer-RNA synthetase–tRNA_(CUA) (MjTyrRS–tRNA_(CUA)) and the Methanosarcina barkeri pyrrolysyl-tRNA synthetase–tRNA_(CUA) (MbPylRS–tRNA_(CUA)) orthogonal pairs have been evolved to incorporate a range of unnatural amino acids in response to the amber codon in Escherichia coli. However, the potential of synthetic genetic code expansion is generally limited to the low efficiency incorporation of a single type of unnatural amino acid at a time, because every triplet codon in the universal genetic code is used in encoding the synthesis of the proteome. To enc...
Genetic code expansion and reprogramming methodologies allow us to incorporate non-canonical amino a...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, Februar...
Genetic code expansion enables the site-specific incorporation of unnatural amino acids (unAA) into ...
Genetic code expansion enables the site-specific incorporation of unnatural amino acids (unAA) into ...
Genetic code expansion enables the site-specific incorporation of unnatural amino acids (unAA) into ...
We have utilized in vitro evolution to identify tRNA variants with significantly enhanced activity f...
The genetic code of cells is near‐universally triplet, and since many ribosomal mutations are lethal...
The genetic code of cells is near‐universally triplet, and since many ribosomal mutations are lethal...
The ability to introduce different biophysical probes into defined positions in target proteins will...
Genetic incorporation of noncanonical amino acids has emerged as a powerful tool for the study of pr...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
textOver the last twenty years, the expansion of the genetic code has been made possible by the enco...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
Genetic code expansion and reprogramming methodologies allow us to incorporate non-canonical amino a...
Genetic code expansion and reprogramming methodologies allow us to incorporate non-canonical amino a...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, Februar...
Genetic code expansion enables the site-specific incorporation of unnatural amino acids (unAA) into ...
Genetic code expansion enables the site-specific incorporation of unnatural amino acids (unAA) into ...
Genetic code expansion enables the site-specific incorporation of unnatural amino acids (unAA) into ...
We have utilized in vitro evolution to identify tRNA variants with significantly enhanced activity f...
The genetic code of cells is near‐universally triplet, and since many ribosomal mutations are lethal...
The genetic code of cells is near‐universally triplet, and since many ribosomal mutations are lethal...
The ability to introduce different biophysical probes into defined positions in target proteins will...
Genetic incorporation of noncanonical amino acids has emerged as a powerful tool for the study of pr...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
textOver the last twenty years, the expansion of the genetic code has been made possible by the enco...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
Genetic code expansion and reprogramming methodologies allow us to incorporate non-canonical amino a...
Genetic code expansion and reprogramming methodologies allow us to incorporate non-canonical amino a...
Amber stop codon suppression has allowed for over 150 unnatural amino acids (UAAs) to be incorporate...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biological Engineering, Februar...