Add to ORKGIn enzyme engineering, the main targets for enhancing properties are enzyme activity, stereoselective specificity, stability, substrate range, and the development of unique functions. With the advent of genetic code extension technology, non-natural amino acids (nnAAs) are able to be incorporated into proteins in a site-specific or residue-specific manner, which breaks the limit of 20 natural amino acids for protein engineering. Benefitting from this approach, numerous enzymes have been engineered with nnAAs for improved properties or extended functionality. In the present review, we focus on applications and strategies for using nnAAs in enzyme engineering. Notably, approaches to computational modelling of enzymes with nnAAs are also addre...
SummaryUsing an orthogonal tRNA-synthetase pair, unnatural amino acids can be genetically encoded wi...
Residue-specific incorporation of non-canonical amino acids into proteins allows facile alteration a...
Expanded genetic code approaches are a powerful means to add new and useful chemistry to proteins at...
The standard proteinogenic amino acids grant access to a myriad of chemistries that harmonize to cre...
Incorporation of noncanonical amino acids (ncAAs) via genetic code expansion (GCE) opens up new poss...
The emergence of robust methods to expand the genetic code allows incorporation of non-canonical ami...
Enzyme design and evolution strategies rely exclusively on Nature’s standard amino acid alphabet of ...
Enzyme engineering aims to improve or install a new function in biocatalysts for applications rangin...
Natural enzymes are constructed from the twenty proteogenic amino acids, which may then require post...
Since the establishment of site-specific mutagenesis of single amino acids to interrogate protein fu...
Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, ...
In Nature there are twenty proteogenic amino acid ‘building blocks’, from which proteins and enzymes...
The combination of computational enzyme design and laboratory evolution provides an attractive platf...
Genetic code expansion allows unnatural (non-canonical) amino acid incorporation into proteins of in...
AbstractEnzymes are an attractive alternative in the asymmetric syntheses of chiral building blocks....
SummaryUsing an orthogonal tRNA-synthetase pair, unnatural amino acids can be genetically encoded wi...
Residue-specific incorporation of non-canonical amino acids into proteins allows facile alteration a...
Expanded genetic code approaches are a powerful means to add new and useful chemistry to proteins at...
The standard proteinogenic amino acids grant access to a myriad of chemistries that harmonize to cre...
Incorporation of noncanonical amino acids (ncAAs) via genetic code expansion (GCE) opens up new poss...
The emergence of robust methods to expand the genetic code allows incorporation of non-canonical ami...
Enzyme design and evolution strategies rely exclusively on Nature’s standard amino acid alphabet of ...
Enzyme engineering aims to improve or install a new function in biocatalysts for applications rangin...
Natural enzymes are constructed from the twenty proteogenic amino acids, which may then require post...
Since the establishment of site-specific mutagenesis of single amino acids to interrogate protein fu...
Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, ...
In Nature there are twenty proteogenic amino acid ‘building blocks’, from which proteins and enzymes...
The combination of computational enzyme design and laboratory evolution provides an attractive platf...
Genetic code expansion allows unnatural (non-canonical) amino acid incorporation into proteins of in...
AbstractEnzymes are an attractive alternative in the asymmetric syntheses of chiral building blocks....
SummaryUsing an orthogonal tRNA-synthetase pair, unnatural amino acids can be genetically encoded wi...
Residue-specific incorporation of non-canonical amino acids into proteins allows facile alteration a...
Expanded genetic code approaches are a powerful means to add new and useful chemistry to proteins at...